DE102016013847A1 - Battery case, battery and method for sealing a battery case - Google Patents

Abstract

The invention relates to a battery housing (10) for a battery of a motor vehicle, wherein the battery housing (10) has a housing lower part (14) which is designed to receive a plurality of cell blocks (12), wherein the housing lower part (14) forms a housing lower part (14). in a first direction final housing bottom (16) and a peripheral side wall (16) surrounding this, and wherein the housing lower part (14) is open in a direction opposite to the first direction. In this case, the housing lower part (14) has at least two chambers (22a, 22b), wherein a respective one of the chambers (22a, 22b) is designed to receive at least one of the cell blocks (12), wherein between the at least two chambers (22a, 22b) a partition (24) of the housing lower part (14) is arranged, which at least one at least two chambers (22a, 22b) connecting the opening (24a) for carrying out a connecting line (26). In addition, the battery housing (10) comprises a sealing surface support (28) which is arranged on an opening side (20) of the lower housing part (14) opposite the housing bottom (16) such that the sealing surface mount (28) has at least one flange side facing the opening side (20) (24b) of the partition wall (24) with the opening (24a) covered.

Description

The invention relates to a battery housing for a battery of a motor vehicle, wherein the battery housing has a housing lower part, which is designed to receive a plurality of cell blocks, wherein the housing lower part comprises a housing bottom and a housing bottom circumferential side wall, and wherein the housing bottom closes the housing lower part in a first direction and wherein the housing lower part is opened in a direction opposite to the first direction. In this case, the battery housing has a sealing element.

Known high-voltage batteries, for example for vehicle applications, such as hybrid, plague or electric vehicles, or stationary applications, such as electricity suppliers or electricity storage, consist of many in series and / or parallel-connected single cells. Within a battery, the individual cells are usually combined in so-called cell blocks, each containing a certain number of cells including the facilities for their mechanical fixation, for contacting and optionally for temperature control, such as cooling or heating. The cell blocks or cell blocks are in turn housed in a sealed and sealed according to requirements battery housing, which in addition the necessary facilities for electrical control and protection of the battery, such as a battery management system, contactors for switching on and off of electricity, fuses, ammeters, etc ., as well as the connections to the outside, such as power supply and power drain, coolant supply and coolant discharge, connection of the battery control, etc., contains.

In particular, large batteries, for example for traction applications, may be made of space or assembly reasons in several parts or have multi-part housing. The necessary connections of the sub-batteries for power, control and coolant lines currently generate a lot of effort, as they must be passed through several housing walls and connected between the exit points via a connecting line, the connection must have at least one separation point for assembly reasons.

In addition, to provide a closed and sealed battery case, seals are usually used, which are introduced between a lower housing part and an upper housing part. For example, this describes DE 10 2012 018 055 A1 a seal of an electrical or electronic components receiving housing. In this case, this housing has two housing parts fastened to one another via a flange connection, which have sealing surfaces which face one another and which are braced against one another. Furthermore, an elastic sealing body is introduced between the two opposing sealing surface.

To provide a solution to the above-mentioned problem of connecting multiple cell blocks, which can be accomplished so far only with enormous effort, a change in the geometric conditions of the battery case is required, which in turn requires further considerations regarding the sealing of the battery case.

Object of the present invention is therefore to provide a battery case, a battery and a method for sealing a battery case, which allow for the simplest possible interconnection or connection of multiple cell blocks and a simple and adapted to the new geometric conditions sealing multi-part battery case.

This object is achieved by a battery housing, a battery and a method having the features according to the respective independent claims. Advantageous embodiments of the invention are specified in the dependent claims.

The battery housing according to the invention for a battery of a motor vehicle has a housing lower part, which is designed to receive a plurality of cell blocks, wherein the housing lower part comprises a housing bottom and the housing bottom circumferential side wall, wherein the housing bottom closes the housing lower part in a first direction and wherein the housing lower part in a the second direction opposite direction is opened, wherein the battery case further comprises a sealing element. Furthermore, the housing lower part has at least two chambers, wherein a respective one of the chambers is designed to receive at least one of the cell blocks, wherein a partition wall of the housing lower part is arranged between the at least two chambers. This has to perform a connection line between the cell blocks at least one connecting the at least two chambers breakthrough. In this case, the sealing element is designed as a sealing surface carrier, which is arranged on a side opposite the housing bottom opening side of the housing base, that the sealing surface carrier covers at least one of the opening side facing flange side of the partition with the opening.

By virtue of that advantageously in the partition wall between the individual chambers of the Battery housing provided a breakthrough only, a particularly simple interconnection of the cell blocks to be arranged in the respective chambers is made possible. In particular, this allows connections that no longer have to have a separation point. The necessary for the connection of the sub-batteries, ie the individual cell blocks lines can now advantageously by the housing separation plane, ie the partition, are performed. In order to still be able to provide a closed and sealed battery housing, a sealing surface support is advantageously provided, which covers at least the flange side of the partition with the opening. Despite the breakthrough in the partition can thus be advantageously provided a seal the opening side.

In an advantageous embodiment of the invention, the sealing surface support is designed such that it additionally covers one of the opening side facing flange side of the side wall. As a result, it can advantageously be accomplished that all flange sides located on the opening side, that is, a single, integrally formed sealing surface support. H. Both the side wall and the partitions can be sealed accordingly. Depending on the design of the battery case or depending on the desired arrangement of cell blocks within the battery case, there are even more particularly advantageous embodiments of the seal carrier.

According to an advantageous embodiment of the invention, the sealing surface carrier is further formed such that it additionally covers a part of the opening side forming chamber opening at least one of the chambers, so that the sealing surface support is formed for the at least one chamber at the same time as a lid. The sealing surface carrier thus also acts as the upper housing part for this at least one chamber. If, for example, all chambers of the battery housing are filled with cell blocks in a uniform height, the sealing surface support can also be designed to cover all openings and flange sides and advantageously thus also act as a single cover for the entire battery housing.

However, embodiments are also conceivable in which the individual chambers of the battery case are filled with cell blocks of different heights. For example, only a single cell block can be introduced into a chamber while in another, two stacked cell blocks are arranged.

In this case, it is a particularly advantageous embodiment of the invention, when the sealing surface carrier is formed such that the sealing surface carrier in the region of at least one part of the opening side forming chamber opening at least one of the chambers has a corresponding opening, so that the sealing surface carrier does not cover the chamber opening, wherein the battery housing has a lid which is arranged to cover the chamber opening on the sealing surface carrier. Thereby, it is advantageously accomplished that, for example, this chamber can be filled with cell blocks whose overall height projects beyond the chamber opening, in particular also over the corresponding opening of the sealing surface carrier. By a suitable lid, which can then be arranged to cover on the sealing surface support, thus a suitable cover for different cell block heights can be selected. Such a design of the sealing surface carrier is therefore particularly flexible.

Also, the above example can be combined in any way, d. H. the sealing surface carrier be partially formed so that it covers some of the chamber openings and thus acts as a lid, as well as in the area of some chamber openings corresponding openings on which matching separate lid can be applied.

In a further advantageous embodiment of the invention, the sealing surface carrier is formed from a sealing material or the sealing surface carrier has a base element on which a sealing material is arranged. Thus, the sealing surface carrier can represent the seal itself. For this purpose, the sealing surface support may be formed, for example, as a metal gasket made of soft copper, aluminum or steel, or as a metal gasket with a deformable thickness, or as a metal gasket with elastomer coating, etc. Also, the sealing surface support may comprise a base member to which then a corresponding sealing material is arranged. For example, a corresponding elastomeric seal can be applied to the base element. The sealing between the housing flanges, ie the flange sides of the sides and partitions, and the sealing surface carrier itself can be non-positively, for example by pressing the flat surfaces or pressing an interposed or on a part, such as the basic element described, applied elastomeric seal. It is also conceivable, however, to carry out the sealing cohesively, such as sealing surfaces applied to sealing compound or adhesive, in which case the sealing surface carrier itself may represent the sealing material, such as in a design as coated on both sides with adhesive thin carrier made of metal or plastic. The compression of the sealing surface carrier can to this preferably by the already existing clamping means for connecting the housing base and housing top, such as screws, rivets, punch rivets, clamps, brackets, partial or punctiform welds, etc. done. Do the sub-batteries or cell blocks as usual a common housing base, then the leadership of the connecting lines can be done in corresponding openings in the sealing flange of the housing base and it is only a sealing surface support required.

Furthermore, the invention relates to a battery with a battery housing according to the invention or one of its embodiments. The advantages mentioned for the battery housing according to the invention apply in the same way for the battery according to the invention.

In addition, the invention relates to a method for sealing a battery housing for a battery of a motor vehicle, wherein the battery housing has a housing lower part, which is designed to receive a plurality of cell blocks, wherein the housing lower part comprises a housing bottom and a housing bottom circumferential side wall, and wherein the housing bottom the Closing housing lower part in a first direction and wherein the lower housing part is open in a direction opposite to the first direction. The battery case is sealed with a sealing element. Furthermore, the lower housing part has at least two chambers, wherein a respective one of the chambers is designed to receive at least one of the cell blocks, wherein a partition wall of the housing lower part is arranged between the at least two chambers, which for carrying out a connecting line between the cell blocks at least one the at least two chambers having connecting breakthrough. In this case, the sealing element is designed as a sealing surface carrier, which is arranged on a side opposite the housing bottom opening side of the housing base, that the sealing surface carrier covers at least one of the opening side facing flange side of the partition with the opening.

The advantages described for the battery housing according to the invention and its embodiments apply in the same way for the inventive method. In addition, the physical features mentioned in connection with the battery housing according to the invention and its embodiments enable the development of the method according to the invention by further method steps.

Further advantages, features and details of the invention will become apparent from the following description of a preferred embodiment and from the drawing. The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and / or in the figures alone can be used not only in the respectively specified combination but also in other combinations or in isolation, without the scope of To leave invention.

Showing:

1 a schematic exploded view of a battery case with cell blocks arranged therein according to a first embodiment of the invention;

2 a schematic cross-sectional view of a portion of the in 1 illustrated battery case according to an embodiment of the invention;

3 a schematic exploded view of a battery case with battery cell blocks arranged therein according to another embodiment of the invention; and

4 a schematic cross-sectional view of a portion of the battery case 3 according to an embodiment of the invention.

1 Figure 1 shows a schematic exploded view of a battery case 10 with cell blocks arranged therein 12 , For example, a motor vehicle battery, according to an embodiment of the invention. The battery case 10 has a lower housing part 14 on which a caseback 16 includes and a housing bottom 16 circumferential side wall 18 , The side wall 18 stands in particular perpendicular to the housing bottom 16 , This closes the case back 16 the lower housing part 14 in a first direction, ie in the illustration in FIG 1 down, down. In a direction opposite to the first direction, ie in the illustration in FIG 1 to the top, is the lower housing part 14 opened, which in the following also as opening side 20 of the lower housing part is called. The battery case 10 is also used to hold multiple cell blocks 12 educated. These are in the lower housing part 14 several, in this example two chambers, namely a first chamber 22a and a second chamber 22b intended. These are through a partition 24 of the housing base 14 separated from each other. Now to the individual cell blocks 12 to be able to interconnect in a particularly advantageous manner and, for example, to connect to each other by connecting lines, has the partition 24 a breakthrough 24a on. Through this breakthrough 24a can now advantageously a connection line 26 for connecting the cell blocks 12 be guided without that a separation point in the connecting line 26 must be provided.

Furthermore, the battery case 10 a sealing surface carrier 28 on. In this example, the seal surface carrier 28 designed so that it is arranged on the lower housing part 14 , in particular on its opening side 20 , both a flange side 24b the partition 24 as well as the flange side 18a the side wall 18 covered. In the area of the chamber openings, the sealing surface carrier has 28 corresponding openings 28a on.

According to this first constructional design proposal of a two-part battery, ie in particular a battery case 10 with two chambers 22a . 22b , the two halves of a common housing base 14 own, and its middle flange, ie the partition 24 , with a breakthrough 24a for the separation-free implementation of the connecting lines 26 is provided, is for sealing between the perforated flange of the housing base 14 and the two lids 30a . 30b a one-piece sealing surface carrier 28 , For example, as a thin sheet metal in the shape of an eight, arranged. The flange of the housing base 14 ie the flange sides 18a . 24b the side wall 18 and the partition 24 , is included with a circumferential and continuous elastomer seal 32 Mistake. Furthermore, on the top, ie the battery lower part 14 opposite side, the sealing surface carrier 28 two seals 34 arranged geometrically with the two lids 30a . 30b correspond. Sealing surface carrier 28 and lid 30a . 30b be shared by the screws 36 of which, for reasons of clarity, only one is provided with a reference numeral, for fixing the lid 30a . 30b braced.

2 shows in a schematic cross-sectional representation again a part of in 1 illustrated battery case 10 , in particular an upper part of the partition wall 24 , Good to see is also the breakthrough 24a the partition 24 through which the connecting line 26 between the cell blocks 12 is performed. Above this breakthrough 24a and in particular also above this connecting line 26 is now the sealing surface carrier 28 arranged. Furthermore, the respective lid 30a . 30a now on this sealing surface carrier 28 by means of screws 36 shown screwed. The on the top of the sealing surface carrier 28 arranged seals 34 are in 2 also visible in cross section.

3 shows a schematic exploded view of a battery case 10 with cell blocks arranged therein 12 according to a further embodiment of the invention. The battery case 10 here again has a lower housing part 14 which is identical to the one to 1 is already described. Furthermore, the battery case 10 now again a sealing surface carrier 28 on, which hereby advantageously simultaneously for the first chamber 22a also acts as a lid. Accordingly, the sealing surface carrier 28 designed so that it is arranged on the lower housing part 14 now also the chamber opening of the first chamber 21a additionally covered. Regarding the second chamber 22b has the sealing surface support 28 again a corresponding opening 28a on. Accordingly, to cover this opening 28a a corresponding lid 30b intended.

According to this second constructional design proposal of a two-part battery similar to 1 Thus, in turn, both halves have a common housing base 14 whose middle flange 24 with a breakthrough 24a for the separation-free implementation of the connecting lines 26 is provided. To simplify the structure is the function of the sealing surface carrier 28 in the lid of a sub-battery, ie in the first chamber 22a arranged cell blocks 12 , integrated in the flange in the direction of the second chamber 22b arranged sub-battery, ie cell block 12 , widened in the form of a ring. The flange of the housing base 14 is again with a circumferential and continuous seal 32 provided and on top of the lid, ie the sealing surface carrier 28 , in the second chamber 22b corresponding area is a seal 34 arranged geometrically with the lid 30b corresponds.

4 shows in a schematic cross-sectional representation again a part of in 3 illustrated battery case 10 , in particular again in the region of the upper part of the partition wall 24 ,

This embodiment is particularly advantageous, since in this case the structure is significantly simplified if an already existing upper housing part, which therefore at the same time now the sealing surface carrier 28 represents, is increased in the flange so that this over the entire flange of the housing base 14 extends and thus the sealing surface carrier 18 replaced as a separate component, or in other words, the sealing surface carrier 18 simultaneously provides the lid.

LIST OF REFERENCE NUMBERS

10

battery case

12

cell block

14

Housing bottom

16

caseback

18

Side wall

18a

Flange side of the side wall

20

opening side

22a, 22b

chamber

24

partition wall

24a

breakthrough

24b

Flange side of the partition

26

connecting line

28

Sealing surface carrier

28a

opening

30a, 30b

cover

32

elastomer seal

34

seals

36

screw

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 102012018055 A1 [0004]

Claims (7)

Battery case ( 10 ) for a battery of a motor vehicle, wherein the battery housing ( 10 ) a housing lower part ( 14 ), which is used to hold a plurality of cell blocks ( 12 ), wherein the housing lower part ( 14 ) a housing bottom ( 16 ) and a housing bottom ( 16 ) circumferential side wall ( 16 ), wherein the housing bottom ( 16 ) the lower housing part ( 14 ) terminates in a first direction and wherein the housing lower part ( 14 ) is opened in a direction opposite to the first direction, wherein the battery housing ( 10 ) a sealing element ( 28 ), characterized in that the housing lower part ( 14 ) at least two chambers ( 22a . 22b ), wherein a respective one of the chambers ( 22a . 22b ) for receiving at least one of the cell blocks ( 12 ), wherein between the at least two chambers ( 22a . 22b ) a partition wall ( 24 ) of the lower housing part ( 14 ) arranged to carry out a connecting line ( 26 ) between the cell blocks ( 12 ) at least one of the at least two chambers ( 22a . 22b ) connecting breakthrough ( 24a ), wherein the sealing element ( 28 ) as a sealing surface carrier ( 28 ), which in such a way on a the housing bottom ( 16 ) opposite opening side ( 20 ) of the lower housing part ( 14 ) is arranged, that the sealing surface carrier ( 28 ) at least one of the opening side ( 20 ) facing flange side ( 24b ) of the partition ( 24 ) with the breakthrough ( 24a ) covered. Battery case ( 10 ) according to claim 1, characterized in that the sealing surface carrier ( 28 ) is designed such that this additionally one of the opening side ( 20 ) facing flange side ( 18a ) of the side wall ( 16 ) covered. Battery case ( 10 ) according to claim 2, characterized in that the sealing surface carrier ( 28 ) is formed such that the sealing surface carrier ( 28 ) additionally a part of the opening side ( 20 ) forming chamber opening at least one of the chambers ( 22a . 22b ), so that the sealing surface carrier ( 28 ) for the at least one chamber ( 22a . 22b ) is simultaneously formed as a lid. Battery case ( 10 ) according to claim 2, characterized in that the sealing surface carrier ( 28 ) is formed such that the sealing surface carrier ( 28 ) in the region of at least one part of the opening side ( 20 ) forming chamber opening at least one of the chambers ( 22a . 22b ) a corresponding opening ( 28a ), so that the sealing surface carrier ( 28 ) does not cover the chamber opening, the battery case ( 10 ) a lid ( 30a . 30b ), which for covering the chamber opening on the sealing surface carrier ( 28 ) is arranged. Battery case ( 10 ) according to claim 2, characterized in that the sealing surface carrier ( 28 ) is formed from a sealing material or the sealing surface carrier ( 28 ) has a base member on which a sealing material is arranged. Battery with a battery case ( 10 ) according to any one of the preceding claims. Method for sealing a battery housing ( 10 ) for a battery of a motor vehicle, wherein the battery housing ( 10 ) a housing lower part ( 14 ), which is used to hold a plurality of cell blocks ( 12 ), wherein the housing lower part ( 14 ) a housing bottom ( 16 ) and a housing bottom ( 16 ) circumferential side wall ( 16 ), wherein the housing bottom ( 16 ) the lower housing part ( 14 ) terminates in a first direction and wherein the housing lower part ( 14 ) is opened in a direction opposite to the first direction, the battery housing ( 10 ) is sealed with a sealing element, characterized in that the housing lower part ( 14 ) at least two chambers ( 22a . 22b ), wherein a respective one of the chambers ( 22a . 22b ) for receiving at least one of the cell blocks ( 12 ), wherein between the at least two chambers ( 22a . 22b ) a partition wall ( 24 ) of the lower housing part ( 14 ) arranged to carry out a connection line between the cell blocks ( 12 ) at least one of the at least two chambers ( 22a . 22b ) connecting breakthrough ( 24a ), wherein the sealing element as a sealing surface carrier ( 28 ), which in such a way on a the housing bottom ( 16 ) opposite opening side ( 20 ) of the lower housing part ( 14 ) is arranged, that the sealing surface carrier ( 28 ) at least one of the opening side ( 20 ) facing flange side of the partition ( 24 ) with the breakthrough ( 24a ) covered.

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