DE102022207132A1 - Battery system - Google Patents

Abstract

The invention relates to a battery system, in the housing interior of which at least one transverse or longitudinal hollow support (17) and at least one cell stack (3) with a number of battery cells stacked one behind the other in a stacking direction (y) are arranged, the battery system having a measuring line system for measuring cell parameters has, in which measuring lines (5) are led from the cell stack (3) to a cell controller (CMCe). According to the invention, a closed cross-sectional cavity (19) of the transverse or longitudinal hollow beam (17) forms a cable shaft in which the measuring lines (5) are laid.

Description

The invention relates to a battery system according to the preamble of claim 1, a hollow carrier for such a battery system according to claim 9 and a method for assembling the battery system according to claim 10.

In a battery system, in particular a high-voltage battery system for a vehicle, cell parameters of the battery cells, for example a cell temperature or a cell voltage, are recorded by sensors and corresponding measurement signals are passed to a cell controller via a measuring line system.

A generic battery system has, in its housing interior, at least one hollow support extending in the transverse direction of the battery or in the longitudinal direction of the battery, as well as at least one cell stack, which is constructed from a number of battery cells stacked one behind the other in a stacking direction. The battery system also has a measurement line system through which measurement signals are routed from the cell stack to the cell controller. If the measuring lines are laid freely inside the housing, EMC interference can occur in the measuring lines. The measuring lines must therefore be shielded from such EMC interference in a complex manner.

From the DE 10 2015 225 369 A1 a contacting device for a battery module is known. From the DE 10 2015 221 339 A1 a housing for a traction battery and a method for assembling such a housing are known.

The object of the invention is to provide a battery system in which the measuring lines are shielded from EMC interference in a manner that is simple in terms of production technology and takes up little space.

The task is solved by the features of claim 1, claim 9 or claim 10. Preferred developments of the invention are disclosed in the subclaims.

The invention is based on a battery system, in the interior of which at least one hollow support extending in the transverse direction of the battery or in the longitudinal direction of the battery and at least one cell stack are arranged. The cell stack is made up of a number of battery cells stacked one behind the other in a stacking direction. The battery system also has a measuring line system through which measurement signals of cell parameters recorded by sensors are routed from the cell stack to a cell controller. According to the characterizing part of claim 1, the following measure is taken to reduce EMC interference: According to the invention, a closed cross-sectional cavity of the hollow support forms a cable shaft in which the measuring lines are laid. In this way, on the one hand, the measuring lines can be laid in a space-saving manner and, on the other hand, shielding against EMC interference is achieved in a simple manner in terms of production technology. The hollow support has a shielding effect against EMC interference and can preferably be made from continuous casting of metal.

In a technical implementation, the hollow support can have contact points, in particular coupling plugs. At the contact points of the hollow support, the measuring lines laid in the hollow support can be brought into electrical contact with the cell stack. In particular, the cell stack has a mating connector which can be brought into direct plug connection with the coupling connector formed on the hollow support.

The battery housing of the battery system is made up of a housing base from which a circumferential housing side wall is raised. This is limited on the top by a housing cover. The hollow support can divide the interior of the housing into subspaces, in each of which at least one cell stack is arranged.

In a preferred embodiment, when viewed in cross section, the hollow beam can have a bottom-side, cross-section-sized hollow beam base section. This can merge into an upper, small-cross-section hollow beam section in a vertical direction of the housing. An inner corner region can be spanned between the hollow beam base section and the upper hollow beam section. This inner corner area forms a contact space in which the contact between the cell stack and the hollow support contact point can take place without any interference contours.

In addition, an upper side of the hollow support base section delimiting the inner corner area can form a fastening surface to which the cell stack can be mounted, in particular screwed.

The structure of a battery system is described below, in which the measuring lines are not only laid within the hollow support, but the measuring distances over which the measuring line system extends can also be reduced. Accordingly, a longitudinal hollow beam runs in a battery housing longitudinal direction centrally within the battery housing. The longitudinal hollow beam delimits partial spaces on both sides when viewed in the transverse direction of the housing. A number of cell stacks are arranged in each of these. The stacking direction of the cell stacks is preferably aligned in the transverse direction of the housing.

With regard to a battery assembly process that is favorable in terms of production technology, it is also preferred if the hollow support and the measuring lines laid therein are kept as a separate pre-assembly unit. In this case, the pre-assembly unit can be manufactured in a supplier factory. The pre-assembly unit can then be inserted into the battery housing in the battery manufacturing factory.

An exemplary embodiment of the invention is described below with reference to the attached figures.

• 1 bis 5 jeweils unterschiedliche Ansichten eines Batteriesystems; und
• 6a und 6b Ansichten einer nicht von der Erfindung umfassten Vergleichsform.

Show it:

• 1 until 5 each with different views of a battery system; and
• 6a and 6b Views of a comparative form not covered by the invention.

With a view to a simple understanding of the invention, reference is first made to 6a taken, which shows a comparison form not covered by the invention in a view from above. In the 6a A battery system is shown to the extent necessary for understanding the invention. Accordingly, the battery system has a battery housing, from which in the 6a only a circumferential housing side wall 1 is shown. A total of four cell stacks 3 are arranged inside the housing. Each cell stack 3 has a number of battery cells that are stacked one behind the other in the stacking direction, in which 6a the stacking direction corresponds to the longitudinal direction x of the battery housing.

That in the 6a The indicated battery system has a measuring line system with measuring lines 5, of which in the 6b one is shown as an example. Cell parameters recorded by sensors are passed from the battery cells of the cell stacks 3 to cell controllers (CMCe) via the measuring lines 5. In common practice, the measuring lines 5 are implemented as flat conductors, which are in the 6a are laid in the battery housing longitudinal direction x in spaces 7 between adjacent cell stacks 3 up to the cell controllers CMCe. Like from the 6a and 6b As can be seen, the prior art results in a comparatively large flat conductor length. Such a long measuring distance can be susceptible to EMC interference.

To reduce such EMC interference, the battery system according to the invention is constructed as follows: Accordingly, the battery housing 9 of the battery system has a housing base 11 ( 2 until 4 ), from which a circumferential housing side wall 1 ( 1 ) is raised, which is covered on the top by a housing cover 13 ( 2 until 4 ) is limited. Both the housing base 11 and the housing cover 13 are connected to the cell stacks 3 via adhesive layers 15. Like from the 1 As can be seen further, a longitudinal hollow support 17 runs inside the housing of the battery housing 9, which ends at the end faces of the battery housing 9. The longitudinal hollow beam 17 delimits partial spaces on both sides in the transverse direction y of the housing, in each of which seven cell stacks 3 are arranged. The stacking direction of the cell stacks 3 is aligned transversely to the longitudinal direction x of the battery housing, in contrast to 6a , in which the stacking direction is aligned with the longitudinal direction x of the battery housing.

Like from the 2 As can be seen, the longitudinal hollow beam 17 has a closed cross-sectional cavity 19, which forms a line shaft in which the measuring lines 5 are laid, which connect the cell controllers CMCe with the cell stacks 3.

According to the 2 or 3 Viewed in cross-section, the longitudinal hollow beam 17 has a bottom-side, cross-sectionally large base section 21, which merges into an upper, small-cross-sectional hollow beam section 23 in a housing vertical direction z. Between the hollow beam base section 21 and the upper hollow beam section 23 is in the 2 and 3 an inner corner area 25 is spanned. This forms a contact space in which the contact between the respective cell stack 3 and a contact point 27 of the longitudinal hollow beam 17 takes place. The contact point 27 can preferably be a coupling plug that can be electrically contacted with a corresponding mating plug (not shown) of the cell stack 3.

In addition, an upper side of the hollow support base section 21 delimiting the inner corner area 25 forms a fastening surface 29 to which the cell stacks 3 can each be screwed.

In a battery assembly process, the longitudinal hollow beam 17 and the measuring lines 5 laid therein can form a separate pre-assembly unit that can be installed in the battery housing 9.

Reference symbol list

1

Housing side wall

3

cell stack

5

Measurement line

7

space

9

Battery case

11

Case back

13

Housing cover

15

adhesive layer

17

hollow beam

19

cavity

21

bottom hollow beam section

23

upper hollow beam section

25

Inside corner area

27

coupling point

29

mounting surface

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was 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 102015225369 A1 [0004]
• DE 102015221339 A1 [0004]

Claims (10)

Battery system, in the housing interior of which at least one transverse or longitudinal hollow support (17) and at least one cell stack (3) with a number of battery cells stacked one behind the other in a stacking direction (y) are arranged, the battery system having a measuring line system for measuring cell parameters, in which Measuring lines (5) are led from the cell stack (3) to a cell controller (CMCe), characterized in that a closed cross-sectional cavity (19) of the transverse or longitudinal hollow beam (17) forms a line shaft in which the measuring lines (5) are laid are. battery system Claim 1 , characterized in that the transverse or longitudinal hollow beam (17) has contact points (27), in particular coupling plugs, at which a measuring line (5) laid in the transverse or longitudinal hollow beam (17) can be brought into electrical contact with the cell stack (3). , especially with a mating connector of the cell stack (3). battery system Claim 1 or 2 , characterized in that the battery housing (9) of the battery system has a housing base (11), from which a circumferential housing side wall (1) is raised, which is delimited on the top by a housing cover (13). Battery system according to one of the preceding claims, characterized in that the longitudinal or transverse hollow support (17) divides the interior of the housing into subspaces in which at least one cell stack (3) is arranged. Battery system according to one of the preceding claims, characterized in that the longitudinal or transverse hollow support (17), viewed in cross section, has a bottom-side, cross-section-large base section (21) which merges into an upper, small-cross-section upper support section (23) in a vertical direction (z) of the housing , and that in particular between the base section (21) and the upper support section (23) an inner corner area (25) is spanned, which forms a contact space in which the contact between the cell stack (3) and the contact point (27) of the hollow support (17) takes place . battery system Claim 5 , characterized in that an upper side of the hollow support base section (21) delimiting the inner corner area (25) forms a fastening surface (29) to which the cell stack (3) can be mounted, in particular screwed. Battery system according to one of the preceding claims, characterized in that the longitudinal hollow support (17) runs in a battery housing longitudinal direction (x) centrally within the battery housing (9) and delimits subspaces on both sides in which a number of cell stacks (3) are arranged, and that in particular the stacking direction (y) of the cell stacks (3) is aligned transversely to the longitudinal direction (x) of the battery housing. Battery system according to one of the preceding claims, characterized in that in a battery assembly process the longitudinal or transverse hollow support (17) together with the measuring lines (5) laid therein forms a separate pre-assembly unit which can be installed in the battery housing (9). Longitudinal or transverse hollow support (17) for a battery system according to one of the preceding claims. Method for assembling a battery system according to one of Claims 1 until 8th , in which the hollow support (17) with the measuring lines (5) laid therein is installed as a pre-assembly unit in the battery housing (9) of the battery system.

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