DE102014204737A1 - Cell module for high-voltage storage of a motor vehicle - Google Patents

Abstract

There is provided a cell module, in particular for an electric or hybrid vehicle, having a plurality of memory cells and at least one clamping means for clamping the memory cells, wherein the clamping means is an adhesive tape. In addition, a method for producing a cell module is described with at least the following steps: stacking a plurality of memory cells into a stacked cell module, wrapping the cell module with at least one adhesive tape, in particular a fiber-reinforced adhesive tape, for clamping the memory cells.

Description

The invention relates to a cell module according to the preamble of patent claim 1 and to a method for its production.

In a designated as a battery or high-voltage storage device for power supply, for example, a motor vehicle is usually a plurality of energy storage modules or cell modules are used. Each of these cell modules may include a plurality of prismatic memory cells containing electrochemical battery cells and arranged in a stack (package). The stack consisting of the individual storage cells is typically clamped by means of end plates, which bound the stack at both opposite end-side stack ends, and tie rods.

It is known in the production of a cell module, the individual memory cells weggesteuert and force-monitored to compress and stick together. With the help of a circumferential aluminum frame, formed by the end plates and tie rods, the memory cells are clamped and held in shape. An electrical insulation, in particular a high-voltage insulation, between the individual memory cells and the aluminum frame takes place for example by an additional jacket-like plastic insulation.

In any case, the components of the cell module, in particular the aluminum frame, both in its geometry and in the material properties on the module size to be manufactured or the number of memory cells to interpret. A variation of the memory cell number and thus an adaptability to different performance and space requirements is therefore only limited possible with the known cell modules. In addition, separate insulation components as well as complex and complex welding apparatus and methods for laser welding the aluminum frame must be provided.

An exemplary structure of a cell module shows the DE 10 2010 012 930 A1 , in which are used as clamping means also resilient elements as adjustable tie rods.

The object of the invention is to provide a cell module, in particular for a high-voltage accumulator of a motor vehicle, which can be produced as simply as possible, easily adaptable and cost-effectively and has the lowest possible component weight.

This object is achieved by means of a cell module according to the subject matter of patent claim 1 and by means of a method for producing a cell module according to patent claim 9.

Accordingly, a cell module is proposed, in particular for an electric or hybrid vehicle, having a plurality of memory cells and at least one clamping means for clamping the memory cells, wherein the at least one tensioning means is an adhesive tape.

The memory cells are thus fixed instead of heavy metallic tie rods by one or more adhesive tapes and braced against each other. This offers the advantage that it dispenses with further joining technology and thus a minimal use of materials and production can be achieved with significantly lower material weight. Likewise, a particularly simple adaptation to different module sizes of the cell module, for example due to a variable number of memory cells, is very simple, since the adhesive tape can be provided as an endless roll and prefabricated to the desired length. In addition, the adhesive tape acts as an insulator in the applied areas and offers the possibility of a more compact design compared to tie rods. In other words, the adhesive tape is a tape which can be applied or connected without additional joining method.

An adhesive tape is in particular a strip-shaped carrier material coated on one or both sides with pressure-sensitive adhesive, for example of plastic, plastic film, plastic fabric or textile fabric. Likewise, a carrier material made of metal, in particular aluminum or steel, preferably in the form of a metal foil is used, but with the limitation of a possibly missing insulating property.

Preferably, the adhesive tape is a fiber-reinforced adhesive tape. The use of the fiber-reinforced adhesive tape offers the further advantage that the adhesive tape is particularly durable and traction-resistant, so that a higher and consistent resilience can be provided. A fiber-reinforced adhesive tape is in particular to be understood as a carrier material reinforced with additional fibers. Plastic fibers, carbon fibers, glass fibers, aramid fibers, or natural fibers are used in particular as reinforcing fibers.

In one embodiment, glass or carbon can be used as the material for the substrate. These materials can be used for example in the form of glass fibers or carbon fibers either as individual fibers, fiber bundles or as a scrim, fabric, knitted or the like and thus form the fiber-reinforced adhesive tape. Optionally, the fibers can be made up with a matrix Plastic, in particular resin, be impregnated, which forms the pressure-sensitive adhesive in non-cured state and ensures a corresponding adhesion of the carrier material. In this case, an additional step of curing the matrix may be required, if necessary.

According to a preferred embodiment, the memory cells are arranged in series one behind the other to form a stack. In other words, the memory cells are thus lined up or stacked in a stacking direction of the cell module. For this purpose, the individual memory cells are preferably designed as prismatic cells, in particular plate-shaped or parallelepiped-shaped, so that the memory cells can be connected in a planar manner to adjacent cells. Optionally, the memory cells can additionally be connected to one another in a materially bonded manner, in particular adhesively bonded.

Preferably, the adhesive tape encloses the entire cell module once or several times for clamping the memory cells. The adhesive tape can therefore be wrapped once around the cell module, so that a simple winding is formed in a circumferential direction around the cell module. In a multiple wrapping the cell module can be wrapped several times in the same circumferential direction, wherein the tape is applied in multiple layers by repeated wrapping. Alternatively, the adhesive tape, despite wrapping in the same circumferential direction can be applied locally offset each time of the wrapping, so that at each pass a newly applied layer of the adhesive tape is arranged next to or overlapping to the adhesive tape applied in a previous passage and thus a large adhesive tape order is created. Additionally or alternatively, a repeated wrapping may be performed such that one or more adhesive tapes are applied in different circumferential directions of the cell module.

By repeatedly wrapping the bracing can be flexibly adapted to the specific requirement profile of the respective cell module.

Furthermore, a cooling element and / or a separating element can be arranged between two adjacent memory cells. For example, it is possible to provide an insulation element between each two adjacent memory cells for mutual isolation of the memory cells. In particular, a corresponding element can be provided between all memory cells of the cell module.

In addition, at least one end face of the cell module can be formed by an end plate. Preferably, the cell module on both opposite end faces in each case an end plate, for example made of metal or plastic, which allows a uniform and planar force introduction of the clamping means in the cell module.

Preferably, the adhesive tape is connected to at least one side surface of each memory cell cohesively and / or positively. This means that the adhesive tape not only clamps the cell module and the memory cells contained therein against each other, but is additionally glued on one or preferably two opposite side surfaces of the individual memory cells, so that corresponding tension and tensile forces are introduced locally into the memory cell or into the cell module and additional stability of the cell module is provided.

Accordingly, the use of an adhesive tape, in particular a fiber-reinforced adhesive tape, for clamping a plurality of memory cells of a cell module is proposed.

• a. Stapeln einer Mehrzahl von Speicherzellen zu einem stapelförmigen Zellmodul, und
• b. Umwickeln des Zellmoduls mit mindestens einem Klebeband, insbesondere einem faserverstärkten Klebeband, zum Verspannen der Speicherzellen.

In addition, a method for manufacturing a cell module is presented with at least the following steps:

• a. Stacking a plurality of memory cells into a stacked cell module, and
• b. Wrapping the cell module with at least one adhesive tape, in particular a fiber-reinforced adhesive tape, for clamping the memory cells.

• a. Anordnen eines Kühlelements und/oder eines Trennelements zwischen zwei benachbarten Speicherzellen, und/oder
• b. Anordnen einer Endplatte an mindestens einer Stirnseite des Zellmoduls.

Furthermore, the method may comprise at least one of the following additional steps:

• a. Arranging a cooling element and / or a separating element between two adjacent memory cells, and / or
• b. Arranging an end plate on at least one end face of the cell module.

The invention will be explained in more detail with reference to the drawing with reference to an embodiment.

The single figure shows a schematic representation of a cell module 10 , in particular a cell module 10 for a high-voltage accumulator of a motor vehicle (not shown), having a plurality of memory cells 11 and a clamping device 12 for clamping the memory cells 11 , where the tensioning means 12 an adhesive tape 12 is. To achieve the greatest possible clamping force can be used as tape 12 preferably a fiber-reinforced adhesive tape can be used.

In the illustrated embodiment, the memory cells are 11 as prismatic memory cells 11 designed and arranged in series one behind the other to a stack. The generated stack extends in a stacking direction S, which at the same time a longitudinal direction of the stack or the stack-shaped cell module 10 represents.

The cell module 10 can once or several times to distort the memory cells 11 wrapped in adhesive tape. For example, the wrapping is at least partially aligned in the stacking direction S, so that one by means of the adhesive tape 12 generated clamping force acts mainly in this stacking direction S and thus ensures a compact and stable arrangement. Shown is only a clamping device 12 , Of course, however, a plurality of clamping means (not shown), in particular in the form of a plurality of adhesive tapes, be provided, for example, parallel to each other (ie in the same circumferential direction) and transversely to each other (in different circumferential directions) are arranged to extend.

Furthermore, they are optional on the two end faces of the cell module 10 endplates 13 , For example, made of metal or plastic, arranged. These provide the largest possible force introduction of the clamping force of the adhesive tape 12 in the stacked memory cells 11 for sure.

In addition, this is the cell module 10 encompassing adhesive tape 12 with two opposite side surfaces 11a each memory cell materially connected (shown is only one of the two side surfaces). There is thus a local introduction of force of the adhesive tape 12 by the adhesion to the respective memory cell 11 , In this way, a circumferentially distributed force distribution can be achieved and local force peaks can be prevented.

Not shown are in the merely schematic representation of the figure possibly provided cooling elements and / or separating elements between each two adjacent memory cells, which can be provided for cooling or mutual isolation of the memory cells.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102010012930 A1 [0005]

Claims (10)

Cell module, in particular for an electric or hybrid vehicle, having a plurality of memory cells ( 11 ) and at least one tensioning means ( 12 ) for clamping the memory cells ( 11 ), characterized in that the tensioning means ( 12 ) is an adhesive tape. Cell module according to claim 1, characterized in that the adhesive tape ( 12 ) is a fiber reinforced adhesive tape. Cell module according to claim 1 or 2, characterized in that the memory cells ( 11 ) are designed as prismatic memory cells and arranged in series one behind the other to form a stack. Cell module according to one of claims 1 to 3, characterized in that the cell module ( 10 ) once or several times for clamping the memory cells ( 11 ) with the adhesive tape ( 12 ) is wrapped. Cell module according to one of claims 1 to 4, characterized in that between two adjacent memory cells ( 11 ) A cooling element and / or a separating element is arranged. Cell module according to one of claims 1 to 5, characterized in that at least one end face of the cell module ( 10 ) from an end plate ( 13 ) is formed. Cell module according to one of claims 1 to 6, characterized in that the adhesive tape ( 12 ) at least one side surface ( 11a ) of each memory cell ( 11 ) is connected cohesively and / or positively. Use of an adhesive tape, in particular a fiber-reinforced adhesive tape, for clamping a plurality of memory cells of a cell module. Method for producing a cell module with at least the following steps: a. Stacking a plurality of memory cells into a stacked cell module, b. Wrapping the cell module with at least one adhesive tape, in particular a fiber-reinforced adhesive tape, for clamping the memory cells. Method according to claim 9, comprising at least one of the following additional steps: a. Arranging a cooling element and / or a separating element between two adjacent memory cells, and / or b. Arranging an end plate on at least one end face of the cell module.

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