DE102012219778A1 - Box-shaped or cuboid battery module for use in vehicle i.e. electric car, has connection section connected to module terminal and cell terminal and fixed at battery module such that module terminal is decoupled by cell terminal - Google Patents

Abstract

The module (1) has a front wall (22) i.e. push plate, connecting side walls (23a, 23b), and a bus bar comprising a battery module terminal (92) by which the battery module is electrically connected. A battery cell terminal is connected with terminal parts (11, 12) i.e. screw connections, of cuboid battery cells (10). The bus bar comprises a connection section, which is electrically connected to the module terminal and the cell terminal. The connection section is fixed at the battery module such that the battery module terminal is mechanically decoupled by the battery cell terminal.

Description

The invention relates to a busbar which forms a battery module connection of a battery module. The invention accordingly also relates to a battery module with such a bus bar. The battery module is for use in a vehicle, such. B. an electric vehicle. The preferably rechargeable battery module can at least partially supply the energy required for driving the vehicle, i. E. H. provide an intended for driving electric motor with electrical energy.

From the prior art, such as. B. the EP 2 244 321 A1 Battery modules are known which have a plurality of juxtaposed prismatic battery cells. The battery cells are electrically interconnected. The battery cells each have a positive and a negative electrode, which thus form an electrically positive and an electrically negative terminal of the battery cell. In order to electrically connect the battery module to a power supply, an external connection element is connected to the electrical connection of a battery cell. If the connecting element is rigid, there is basically the possibility that the connection of the battery cell z. B. demolished by vibrations when driving the vehicle or at least damaged. Is the connecting element flexible, such. As a cable, must be provided on the cable corresponding connection elements for the cell connection. Sometimes there is simply no room for a cable.

From the DE 10 2009 005 124 A1 is z. B. a battery cell module, which also has a plurality of prismatic battery cells juxtaposed. At the first and the last battery cell of the battery cell stack frame-shaped pressure plates are arranged, which are connected to four clamping screws and hold the stack together. The clamping screws connect the terminals of the battery cells with each other, wherein the clamping screws are contacted with the frame, that one frame a positive battery module connection and the other frame form a negative battery module connection. At the frame in each case a tab is formed, which forms a battery module connection.

The invention has for its object to provide a battery module which can be connected to an external connection element, wherein the terminals of the battery cells are spared, and which has a compact design as possible.

The object is achieved with the subject matter of claim 1. Advantageous developments emerge from the dependent claims, the description and the figures.

The battery module comprises a particular box-shaped or cuboid battery module housing, which accommodates a plurality of battery cells. The battery module housing may e.g. be designed in several parts. The battery module housing may include a first sidewall and a second sidewall, e.g. is arranged approximately parallel to the first side wall, and having a first end wall and a second end wall, wherein the first and the second end wall connecting the first and second side wall at the opposite ends of the side walls, in particular the front side closing. As a result, a quadrangular, in particular rectangular, enclosure is formed. Although it is preferred that the side walls be longer than the end walls, the side walls and the end walls may also be of equal length, so that the enclosure is square, which is a special case of a rectangle. In particular, the side walls can be screwed to the end walls or preferably welded, in particular laser welded. The sidewalls and the end walls may be at least partially made of a metallic material, such as e.g. be made of an aluminum material. The sidewalls may e.g. be made of a sheet-shaped semi-finished product. The end walls can be designed as printing plates and / or plate-shaped. The side walls may be connected to a floor which forms the bottom of the battery module or the battery module housing. For example, the bottom and the first and second sidewalls may be made of a sheet such as e.g. be formed of a metal or aluminum material, wherein the side walls are angled with respect to the ground, in particular to form a bending edge, such. in about 90 °, whereby in particular a U-shaped battery module housing part is formed in cross section.

Generally speaking, the battery module housing may have a bottom connected to the sidewalls, which closes the underside of the battery module. For example, the sidewalls and floor may be formed of a U-shaped bent metal sheet, e.g. made of an aluminum material, be formed. The side walls may also be formed of an aluminum material.

The battery module housing may have on its upper side a lid which is formed or shaped, for example, from plastic, such as a thermoplastic material. The lid serves to cover the battery cells, in particular their connections from external access. For example, the lid may be shaped to have an opening, particularly an access opening on the first and / or second sidewall, and preferably the first one Closing or closing the end wall or second end wall.

The battery cells are preferably arranged in a row. The battery cells are in particular electrically interconnected, in particular connected in parallel and / or in series. The battery cells may, for example, be prismatic or cuboidal battery cells, their cell thickness being less than their cell height and / or their cell width. Preferably, a plurality of battery cells are in the thickness direction, i. arranged in a row in the direction of the cell thickness, in particular along the longitudinal direction of a gas channel or along the first and / or second side wall. The battery cells each have an electrically positive terminal (positive pole) and an electrically negative terminal (negative pole), preferably on or on a common, z. B. flat surface of the prismatic or cuboid battery cell are arranged. The connections can also be referred to as terminals or connection terminals. The terminals may be used, for example, as metal welding or screw terminals, such as e.g. be made of a copper material or preferably an aluminum material. One of the electrical connections of the battery cell may be arranged closer to the first side wall than the other of the electrical connections of this battery cell, wherein the other of the electrical connections for it is arranged closer to the second side wall. In particular, the electrical connections can point in the direction of the upper side or towards the cover.

The battery module housing may, as e.g. mentioned above, two side walls and two end walls, wherein the end walls connect the two side walls at the ends thereof. In particular, the end wall can be screwed or welded to the side wall. In particular, the end walls can be designed as printing plates. The battery module housing can thus have four edges, at which an end wall meets a side wall.

At least the two side walls and the end walls form a lateral enclosure which supports the juxtaposed battery cells, i. surrounds the battery cell stack formed thereby.

The battery module comprises a first battery module connection and preferably also a second battery module connection. The juxtaposed battery cells are preferably connected electrically between the first and second battery module connection, in particular in parallel and / or in series. One of the battery module terminals forms an electrically negative pole, wherein the other of the battery module terminals forms an electrically positive pole. One or both battery module terminals may each be formed by a bus bar according to the invention described herein. A bus bar and its arrangement will be described as representative of the other.

For example, one battery cell may be connected in series with the next battery cell, and so on. In another example, two battery cells connected in parallel may be connected in series with two subsequent parallel connected battery cells, etc. In yet another example, three battery cells connected in parallel may be connected in parallel with three subsequent ones In yet another example, four battery cells connected in parallel may be connected in series with four following battery cells connected in parallel, and so on. These rows may be continued arbitrarily. Preferably, the poles of the same electric charge are arranged by battery cells connected in parallel on the same side, in particular the width side of the battery cell.

In particular, the poles, which have the same electric charge, of battery cells connected in parallel with one another may lie on opposite sides, in particular broad sides of the battery cells. As a result, a plurality of battery cells can be connected in parallel and / or in series with one another by a relatively simply designed, oblong, in particular straight cell connecting busbar. The cell connection busbar can in this case with its longitudinal direction z. B. extend parallel in the direction in which the battery cells are lined up.

The first battery module connection and the second battery module connection are preferably adapted, with an electrically conductive, external connection element, such. As an external power rail or to be connected to an external cable, such. B. bolted or welded. With the connecting element, which preferably does not belong to the battery module, the battery module with another battery module or another electrical component, such as. B. connected to the drive motor. In general, the battery module can be connected by means of the at least one battery module connection to a power grid or (high-voltage) vehicle electrical system of a vehicle, which supplies electrical energy to an electric motor acting for the drive for the driving operation.

As already mentioned, the battery module comprises at least one bus bar. The bus bar has or forms the battery module connection. The bus bar further has a battery cell connection, which is one of the terminals of a battery cell or a respective connection contacted several battery cells. The battery cell connector may be attached to the terminals that it contacts. The connections of the battery cells can z. B. be designed as a welded or screw, wherein the connecting portion can be welded or screwed to the connection accordingly. Preferably, the battery cell terminal of the bus bar is contacted with or attached to the first and / or second battery cell or to the last and / or penultimate battery cell of the battery cell stack.

The bus bar according to the invention has a connection section which connects the battery module connection and the battery cell connection in an electrically conductive manner.

Preferably, the bus bar is monolithic, d. H. in one piece, and / or formed from a metal sheet. As a result, the battery module connection, the battery cell connection and the connecting section can be designed in each case flat or plate-shaped. Preferably, the battery module connection and the battery cell connection are angled relative to the connection section. In particular, the battery module terminal and the battery cell terminal may protrude in opposite directions from the connecting portion. For example, the battery cell terminal may face the battery cells and the battery module terminal may point away from the battery cells.

According to the invention, the connection section of the busbar is fastened to the battery module such that the battery module connection is mechanically decoupled from the battery cell connection. Under a mechanical decoupling a decoupling of z. B. in the assembly and driving on the battery module connection acting external loads such. As forces and moments, understood by the battery cell connection. In other words, forces and moments acting on the battery module connection are led out of the busbar via the connection section such that these external forces and moments are not transmitted or only negligibly transmitted to the battery cell connection. For example, the connecting portion may be attached to the end wall and / or one, in particular the first or last of the battery cells or their battery cell housing, so that the external loads acting on the battery module connection are guided out of the busbar via the end wall and / or the battery cell or its battery cell housing ,

The connecting portion may, for. B. between the end wall and one of the battery cells, in particular the first or the last battery cell to be clamped. Alternatively or additionally, the connecting portion z. B. bolted to the front wall or glued to the front wall. For example, the connecting portion attached to the end wall positively, such. B. snapped or locked with the end wall.

Particularly preferably, the busbar with respect to the housing, in particular the end wall and / or the side walls, electrically insulated. The end wall can for this purpose z. B. of an electrically non-conductive material such. B. plastic may be formed. In particular, the end wall may be designed in several parts, wherein one part may be formed of an electrically conductive material and the other part of an electrical insulator which isolates the busbar of the electrically conductive material. Particularly preferably, the end wall may comprise a pressure plate, which is preferably rigid in itself. The pressure plate can z. B. be formed of an aluminum material. Between the pressure plate and the connecting portion may be disposed the electrical insulator which electrically insulates the connecting portion with respect to the pressure plate. The electrical insulator may be part of the end wall or part of the connecting portion.

For example, the insulator may be a foil disposed between the pressure plate and the connecting portion of the bus bar. The film can z. B. be glued to the pressure plate or the connecting portion or be arranged loosely between the connecting portion and the pressure plate.

The insulator may be an insulating coating, such as. Example, an insulating paint or adhesive, which is attached to the connecting portion of the bus bar or the pressure plate.

In alternative embodiments, the insulator may be an insulator insert, e.g. B. may be attached to the pressure plate or at least rests against the pressure plate. The Isolatoreinsatz can z. B. be formed of an electrically non-conductive plastic. In particular, the insulator insert can receive the connection portion or at least rest against the connection portion. The insulator insert may have a recess for receiving the connection portion of the busbar.

In particular, the recess may be slot-shaped, wherein the connecting portion is inserted into the slot-shaped recess. For example, the connecting portion may lock in the slot-shaped recess or be clamped in the slot-shaped recess.

Alternatively, the recess may be a paragraph pointing toward the battery cell, in particular to the first or last battery cell, wherein the connecting portion is inserted in the paragraph. In particular, the shoulder may have a heel depth that is less than the thickness, in particular the sheet thickness, of the connecting portion. In particular, in embodiments in which the connecting portion between one of the battery cells and the end wall or the insulator insert is clamped, this is advantageous, since this is the clamping of the connecting portion succeeds particularly well.

In principle, the connecting section can be glued, screwed, latched or connected in any other way to the insulator insert with the insulator insert.

In preferred embodiments, the battery module connection, which is particularly flat for itself, can be tab-shaped or tongue-shaped. Alternatively or additionally, a threaded bushing can be fastened to the battery module connection, in particular be pressed with the battery module connection. A threaded bush has the advantage that it provides a sufficient thread length for a screw, wherein the sheet thickness of the busbar can be kept low. In particular, the side wall, in particular the pressure plate and / or the insulator insert, have a recess in which the threaded bushing is arranged. As a result, the threaded bush can be accommodated to save space. In particular, the recess may be bag-bore-shaped or through-hole-shaped.

Each of the juxtaposed battery cells may have a terminal in a first imaginary plane, the first plane extending along or parallel to the first or second sidewall. From each of the juxtaposed battery cells, the other terminal may lie or be arranged in a second imaginary plane, the plane extending along or parallel to one of the side walls or the first plane. The second level is spaced from the first level.

Particularly preferably, the battery cell connection is arranged in a first and second plane and the battery module connection is offset, ie. H. arranged outside this level. For example, the battery module connection can be arranged between the first and second plane. Preferably, the battery module connection is arranged in the other of the first and second levels. That is, the battery cell terminal and the battery module terminal are preferably not arranged in common in the first and second planes but offset from each other. This allows z. B. that the battery module connection can be formed in the region of the end wall at any point, whereby the position of the battery module connection can be optimized with respect to the position of the external connection element. In particular, the free positioning also allows multiple battery modules can be electrically interconnected with the shortest possible paths.

The invention has been described with reference to several preferred embodiments. In the following, a particularly preferred embodiment will be described with reference to figures. The features disclosed in this case individually and in any combination of features form the subject matter of the invention advantageously. Show it:

1 a perspective view of a battery module according to the invention, from which the lid or the cover is removed,

2 a perspective view of the battery module 1 , wherein the side wall, in particular a pressure plate and an insulator insert, are removed, so that the bus bar according to the invention is visible.

In the 1 and 2 becomes a battery module according to the invention 1 shown. The battery module 1 includes a battery module housing 20 comprising a housing cover or a housing cover (not shown) and an enclosure 22 . 23a . 23b having. The enclosure 22 . 23a . 23b will be from a first sidewall 23a and a second side wall 23b formed, the front side of an end wall 22 . 25 get connected. At the opposite end is also an end wall 22 . 25 arranged (but not apparent from the figures). The first and second side wall 23a . 23b are formed from the legs of a U-shaped bent metal sheet, wherein a bottom of the battery module housing 20 the first and second side walls arranged approximately parallel to one another 23a . 23b combines. The front wall 22 . 25 includes a pressure plate 22 preferably made of metal, such as. B. an aluminum material is formed and in particular by means of laser welding to the side walls 23a . 23b is welded. Alternatively, the pressure plate 22 with the side walls 23a . 23b screwed or glued. The printing plate 22 and or the side walls 23a . 23b and the ground 24 are preferably formed of an aluminum material.

In the case 20 are a variety in their thickness direction lined up battery cells 10 added. The battery cells 10 are cuboidal and are also called prismatic battery cells 10 designated. Every battery cell 10 has an electrically positive connection terminal 11 and an electrically negative connection terminal 12 on, on a common side or flat surface of the battery cell 10 are arranged. Between the positive and negative connection terminals 11 . 12 has every battery cell 10 a Gasausströmöffnung (not shown), on which a pressure relief valve is formed, which opens and the outflow of gas from the battery cell 10 allowed when in the battery cell 10 an inadmissibly high pressure is generated, as z. B. may be the case when a so-called thermal runaway takes place.

The thickness of each battery cell 10 varies due to certain parameters, such. As the state of charge, the temperature and the age of the battery cell 10 , The thickness of the battery cell 10 is thus variable in operation. Advantageously, the juxtaposed battery cells 10 during installation of the battery module 1 through the printing plates 22 in the thickness direction of the battery cells 10 compressed or compressed with a biasing force, wherein the pressure plates 22 with the side walls 23a . 23b be welded so that the battery cells 10 from the battery module housing 20 , in particular the printing plates 22 be stored under pretension. The battery module housing 20 is designed so that it is the battery cells 10 even if they tend to expand, such as B. when loading. This will ensure that the battery module 1 always maintains substantially the same external dimensions, regardless of the state of charge of the battery cells 10 ,

The connection terminals 11 . 12 the battery cells 10 can be designed as screw connections, where they can alternatively be designed as welding connections. The battery cells 10 are by means of cell connector busbars 30 connected. In the example shown, one battery cell each 10 with the next battery cell 10 connected in series, etc. The cell connector busbar 30 is by means of a screw, the z. B. with the housing 20 of the battery module 1 screwed against the connection terminals 11 . 12 What this cell connector busbar 30 electrically connected or contacted, pressed.

Between the printing plate 22 and the first battery cell 10 of the juxtaposed battery cells 10 formed battery stack is a power rail 90 arranged. The busbar 90 is made of a metal sheet, such as. B. made of an aluminum material or a tinned zinc sheet or tinned copper sheet. The busbar 90 has a battery module connector 92 on, with which the battery module 1 to a power grid z. B. a vehicle can be connected. The busbar 90 also has a battery cell connection 91 on, one of the connection terminals 11 ; 12 electrically conductive contacted. In the example shown, the battery cell connection contacts 91 the connection terminal 11 the first battery cell 10 of the battery cell stack.

The battery cell connection 91 is by means of a screw connection to the connection terminal 11 of the battery module 10 attached.

The busbar 90 also has a connection section 93 on, the battery module connection 92 and the battery cell connector 91 electrically conductive connects. The tab-shaped or tongue-shaped battery cell connection 91 is with respect to the connecting section 93 angled, such. B. angled at right angles, as shown in this example. The battery module connection 92 is with respect to the connecting section 93 in the opposite direction as the battery cell connector 91 angled. Also the tongue or lug shaped battery module connection 92 could be angled at right angles, in this example between it and the connecting section 93 an acute angle, such. B. 75 ° is formed. The battery module connection 92 and the battery cell connector 91 protrude in opposite directions from the connecting portion 93 or opposite sides of the connecting portion 93 from.

The connecting section 93 is like that on the battery module 1 attached that the battery module connector 92 mechanically from the battery cell connection 91 is decoupled, namely the fact that the connecting portion 93 between the pressure plate 22 and the first battery cell 10 of the battery cell stack is pinched.

The front wall 22 . 25 points next to the pressure plate 22 an insulator designed as insulator insert 25 on, on the pressure plate 22 is attached and the connecting section 93 or the busbar 90 electrically with respect to the housing 20 , in particular the printing plate 22 isolated. Alternatively, the busbar 90 z. B. by means of a film between the busbar 90 and the printing plate 22 is arranged or any other possibility described herein, with respect to the housing isolated. The film may for this purpose preferably be a plastic film. The film can be loose between the connecting section 93 and the printing plate 22 be arranged or z. B. on the printing plate 22 or the connecting section 93 be glued on.

In the example shown, the connecting section 93 in a slot-shaped recess of the insulator insert 25 used and is held there in said manner clamping.

To the battery module connector 92 is a threaded bush 94 attached. The battery module connection 92 has a breakdown, which is circular in the example shown. The breakthrough is aligned with the threaded hole of the threaded bush 94 , This can be a safe Screw connection between the connection element of the power network to be supplied and the battery module connection 92 getting produced. The threaded bush 94 is in one in the pressure plate 22 and / or the insulator insert 25 arranged recess arranged. As a result, a compact design is effected.

The battery cell connection 91 is in a first, to one of the side walls 23a . 23b arranged parallel plane. The battery module connection 92 is in a second, to one of the side walls 23a . 23b and a plane parallel to the first plane and spaced from the first plane. The first level and the second level each extend in the direction in which the battery cells 10 strung together. From each of the juxtaposed battery cells 10 is a connection terminal 11 . 12 in the first level and another connection terminal 11 . 12 in the second level.

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

• EP 2244321 A1 [0002]
• DE 102009005124 A1 [0003]

Claims (14)

Battery module ( 1 ), in particular for use in a vehicle, comprising: a) a particularly box-shaped battery module housing ( 20 ), which has a plurality of battery cells ( 10 ), each having electrical connections ( 11 . 12 ), receives and a first side wall ( 23a ) and a second side wall ( 23b ) and an end wall ( 22 . 25 ), wherein the end wall ( 22 ) the side walls ( 23a . 23b ), b) a busbar ( 90 ), which has a battery module connection ( 92 ), by means of which the battery module ( 1 ) is electrically connectable, and a battery cell connection ( 91 ), one of the connections ( 11 . 12 ) one of the battery cells ( 10 ), in particular is attached thereto, wherein the busbar ( 90 ) further comprises a connecting portion ( 93 ), which connects the battery module connection ( 92 ) and the battery cell connection ( 91 electrically conductively connecting, characterized in that c) the connecting section ( 93 ) so on the battery module ( 1 ), that the battery module connection ( 92 ) mechanically from the battery cell connection ( 91 ) is decoupled. Battery module ( 1 ) according to claim 1, characterized in that the connecting portion ( 93 ) on the front wall ( 22 . 25 ) is attached Battery module ( 1 ) according to claim 1 or 2, characterized in that the connecting portion ( 93 ) between the front wall ( 22 . 25 ) and one of the battery cells ( 10 ) is trapped. Battery module ( 1 ) according to one of claims 1 to 3, characterized in that the busbar ( 90 ) with respect to the housing ( 20 ) is electrically isolated. Battery module ( 1 ) according to one of claims 1 to 4, characterized in that the end wall ( 22 . 25 ) a printing plate ( 22 ), wherein between the pressure plate ( 22 ) and the connecting section ( 93 ) an electrical insulator ( 25 ) is arranged, the connecting portion ( 93 ) with respect to the printing plate ( 22 ) electrically isolated. Battery module ( 1 ) according to claim 5, characterized in that the insulator ( 25 ) is a film or a coating. Battery module ( 1 ) according to claim 5, characterized in that the insulator ( 25 ) is an insulator insert, which on the pressure plate ( 22 ) is secured and a recess for receiving the connecting portion ( 93 ) having. Battery module ( 1 ) according to claim 7, characterized in that the recess is slot-shaped, wherein the connecting portion ( 93 ) is inserted in the slot-shaped recess. Battery module ( 1 ) according to claim 7, characterized in that the recess a to the battery cell ( 10 ), the connecting section (FIG. 93 ) is inserted into the shoulder, wherein it is preferred that the shoulder has a shoulder depth which is less than the thickness of the connecting portion ( 93 ). Battery module ( 1 ) according to one of claims 1 to 9, characterized in that the busbar ( 90 ) is monolithic and / or formed from a metal sheet. Battery module ( 1 ) according to one of claims 1 to 10, characterized in that the battery module connection ( 92 ) is tab-shaped or tongue-shaped, wherein on the battery module connection ( 92 ) a threaded bushing ( 94 ) is attached. Battery module ( 1 ) according to one of claims 1 to 11, characterized in that the battery module connection ( 92 ) and the battery cell connection ( 91 ) with respect to the connecting section ( 93 ) are angled and in opposite directions from the connecting portion ( 93 ) protrude. Battery module ( 1 ) according to one of claims 1 to 12, characterized in that the battery cells ( 10 ) are lined up, each of the successive battery cells ( 10 ) a connection ( 11 . 12 ) lies in a first plane extending along one of the side walls ( 23a . 23b ) and a connector ( 12 . 11 ) lies in a second plane extending along one of the side walls ( 23a . 23b ) and spaced from the first plane. Battery module according to claim 13, characterized in that the battery cell connection ( 91 ) is arranged in a first and second level and the battery module connection ( 92 ) is arranged offset to this plane, in particular in the other of first and second plane is arranged.

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