DE102019210765A1 - 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 have a battery cell housing (3) which accommodates electrochemical components of the respective battery cells (2) and which is accommodated in a battery module housing (4) The battery cells (2) each have a first sealing element (5) arranged on the battery cell housing (3) and a first sealing element (5) arranged around the battery cell housing (3) and a second sealing element (3) arranged around the battery cell housing (3). 6), which are arranged at a distance from one another in a longitudinal direction (7) of the battery cell (2), the battery module housing (4) also forming battery cell receptacles (8), each of which is designed to accommodate a battery cell (2), the battery cell receptacles one opening (9) and one through the battery module housing comprises a latching element (10), the first sealing element (5) of each battery cell (2) being positively and / or non-positively connected to the latching element (10) of a first battery cell receptacle (81) and the second sealing element (6) of the respective battery cell ( 2) is connected to the latching element (10) of a second battery cell receptacle (82) in a form-fitting and / or force-fitting manner.

Description

State of the art

The invention is based on a battery module.

It is known from the prior art that a battery module has a plurality of individual battery cells, each of which has a positive voltage tap and a negative voltage tap, the respective voltage taps being electrical for an electrically conductive serial and / or parallel connection of the plurality of battery cells to one another are conductively connected to one another and thus interconnected to form the battery module. Battery modules for their part are interconnected to form batteries or battery systems. Due to the large number of possible, different vehicle installation spaces, variable module sizes are desirable in order to be able to make optimal use of the available installation space.

Furthermore, the battery cells of a battery module, such as lithium-ion battery cells or lithium-polymer battery cells, heat up during operation due to chemical conversion processes and due to their electrical resistance when power is output or power consumption. In particular with a comparably fast energy release or energy consumption, these processes are equally pronounced. The more powerful a battery or a battery module, the more pronounced the temperature rise and the associated requirements for an efficient temperature control system. In order to increase the safety of a battery module and also to ensure the performance of the battery cells, the battery cells of a battery module must be heated and cooled in order to be able to operate them in a certain temperature range, so that, for example, an increased aging behavior or a decomposition of the cell chemistry is prevented can be.

Most of the time, however, the battery cells need to be cooled.

For example, the battery cells can be washed around with an electrically non-conductive cooling fluid. In this case, the flow space in which the cooling fluid flows must be sealed against the surroundings of the battery module.

Disclosure of the invention

A battery module with the features of the independent claim offers the advantage that simple and reliable temperature control of battery cells of the battery module is possible and, in particular, reliable sealing of a flow space can be formed.

For this purpose, according to the invention, a battery module with a plurality of battery cells is made available. In particular, the battery cells are designed as lithium ion battery cells.

The battery cells each have a battery cell housing which accommodates electrochemical components of the respective battery cell.

Furthermore, the battery cells are accommodated in a battery module housing. Furthermore, the battery cells each comprise a first sealing element which is arranged on the battery cell housing and which is arranged around the battery cell housing, and a second sealing element which is arranged on the battery cell housing and which is arranged around the battery cell housing.

The first sealing element and the second sealing element are arranged at a distance from one another in a longitudinal direction of the battery cell.

The battery module housing also forms battery cell receptacles, each of which is designed to accommodate a battery cell. The battery cell receptacles each comprise an opening running through the battery module housing and a latching element.

The first sealing element of each battery cell is positively and / or non-positively connected to the latching element of a first battery cell receptacle and the second sealing element of the respective battery cell is positively and / or positively connected to the latching element of a second battery cell receptacle.

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

The plurality of battery cells is expediently designed as cylindrical battery cells. Cylindrical battery cells are also known as round cells. This offers the advantage that the first sealing element and the second sealing element can be arranged on the battery cell housings in a comparably simple manner.

It is advantageous if the battery module housing is made from a polymer material. In particular, the battery module housing can thus be designed as a one-piece injection-molded part.

Furthermore, it is also advantageous if the first sealing element and the second sealing element are made from an elastomeric material. This offers the advantage that the first sealing element and the second sealing element can be designed to be elastic and thus, on the one hand, can be arranged in a simple manner on the battery cell housing and, on the other hand, a reliable seal can be formed.

In order to arrange the respective sealing elements around the battery cell or its battery cell housing, they can be briefly expanded and then arranged around the battery cell housing. In particular, a battery cell can also be pushed into the respective sealing element.

According to a preferred aspect of the invention, the second sealing element extends further from the battery cell housing in a direction facing away from the battery cell housing than the first sealing element. In particular, this averted direction is arranged perpendicular to the battery cell housings. For example, in the case of cylindrical battery cells, the opposite direction can point in the radial direction. This makes it possible to easily manufacture the battery module, in particular since the battery cells can be pushed into the battery module housing with the first sealing element first and the respective first sealing element can thus be pushed through the opening of the battery cell receptacle of the second sealing element without touching or noticeably pressing can.

It is also preferred if the first battery cell receptacles each form stop elements on which the battery cell housing, in particular an end face, and / or the first sealing element bear directly mechanically. It is thus possible to provide a reliable limitation, for example for inserting the respective battery cell.

The first battery cell receptacles and the second battery cell receptacles are particularly preferably arranged opposite one another. A particularly simple structure is possible by means of such a design.

The first sealing element and the second sealing element are advantageously connected by means of a third sealing element arranged between the first sealing element and the second sealing element. Furthermore, the third sealing element covers the surface of the battery cell housing. As a result, an area of the battery cell housing around which cooling fluid can flow can be electrically insulated, so that, for example, electrically conductive temperature control fluids such as mixtures of water and glycol can also be used. In particular, a sealing sleeve is thereby formed which comprises the first sealing element, the second sealing element and the third sealing element. Such a sealing sleeve can be pushed over the respective battery cell, for example. A comparably good heat transfer can be made available due to a comparably thin wall thickness of the third sealing element. A possibility for insulation and sealing can thus be formed at the same time. In other words, this means that the sealing and insulating functions can be combined by such a sealing sleeve. The first sealing element and the second sealing element thus serve to seal a flow space in which temperature control fluid can flow, and the third sealing element essentially serves to electrically isolate the battery cell or its battery cell housing.

Brief description of the drawings

Embodiments of the invention are shown in the single drawing and explained in more detail in the description below.

• 1 eine schematische Darstellung eines erfindungsgemäßen Batteriemoduls.

It shows:

• 1 a schematic representation of a battery module according to the invention.

The only 1 shows a schematic representation of a battery module according to the invention 1 .

The battery module 1 has a plurality of battery cells 2 on, which in particular as lithium-ion battery cells 20th are trained. The battery cells 2 furthermore have a battery cell housing 3 on which in the 1 Unrecognizable electrochemical components of the respective battery cell 2 are included. Furthermore, the battery cells are 2 according to the 1 embodiment shown as cylindrical battery cells 200 educated. Typically, cylindrical battery cells comprise 200 Opposite and parallel to one another, circular end faces which are connected to one another by means of a lateral surface.

The battery cells 2 are in a battery module housing 4th of the battery module 1 recorded. The battery module housing 4th is made of a polymer material 40 educated. In particular, it can be made from a polymer material 40 trained battery module housing 4th be designed as a one-piece injection molded part.

From the 1 it can also be seen that the battery cells 2 a first sealing element each 5 and a second sealing element 6th include. The first sealing element 5 and the second sealing element 6th are each on the battery cell housings 3 arranged and are still the respective battery cell housing 3 arranged all around. This should generally be understood to mean that the first sealing element 5 or the second sealing element 6th each the battery cell housing 3 mechanically contact and continue over the entire circumference of the battery cell housing 3 are arranged.

In addition, the 1 also that the first sealing element 5 and the second sealing element 6th in a longitudinal direction 7th the battery cell 2 are spaced apart from each other.

According to the 1 The embodiment shown are the first sealing element 5 and the second sealing element 6th by means of a third sealing element 11 connected. The third sealing element 11 is between the first sealing element 5 and the second sealing element 6th arranged and covers the surface of the battery cell case 3 . This makes it possible to use the respective battery cell 2 to be electrically insulated in the area around which the temperature control fluid flows, so that, for example, a mixture of water and glycol can also be used as temperature control fluid.

In particular, the first sealing element 5 , the second sealing element 6th and the third sealing element 11 made of an elastomeric material 12 educated. The first sealing element is also preferred 5 , the second sealing element 6th and the third sealing element 11 executed in one piece with each other.

The battery module housing 4th continues to form battery cell receptacles 8th from which each to a inclusion of a battery cell 2 are trained. At this point it should be noted that in particular the right of the three battery cells 2 not yet completely in the respective battery cell receptacles 8th is recorded. This shows that the battery cell receptacles 8th one at a time through the battery module housing 4th opening through it 9 and a locking element 10 include.

The first sealing element 5 one battery cell each 2 is form-fitting and / or force-fitting with the locking element 10 a first battery cell holder 81 connected. Furthermore is the second sealing element 6th this battery cell 2 form-fitting and / or force-fitting with the locking element 10 a second battery cell holder 82 connected.

The first battery cell receptacles are preferred 81 and the second battery cell receptacles 82 arranged opposite one another. In particular the first battery cell holder 81 and the second battery cell receptacle 82 , which share a battery cell 2 record are arranged opposite one another.

In addition, from the 1 to see that the first battery cell recordings 81 each stop elements 13th form. At such stop elements 13th can use the battery cell housing 3 , especially an end face for cylindrical battery cells 200 , and / or the first sealing element 5 apply immediately mechanically. This makes it possible to insert a battery cell 2 defined limit. For example, the stop element 13th as an undercut 130 be executed.

At this point it should be noted that, as already mentioned, the right of the three battery cells 2 not completely in the respective battery cell holder 8th is recorded. In particular, the battery module housings become an arrangement 4th the battery cells 2 in the longitudinal direction 7th into the battery module housing 4th inserted. The insertion takes place in such a way that the battery cell 2 with the first sealing element 5 advance through the opening 9 the second battery cell holder 82 is pushed through. The battery cell 2 is so far into the battery module housing 4th pushed in until the first sealing element 5 through the first battery cell holder 81 is positively and / or non-positively received and until the second sealing element 6th through the second battery cell holder 82 is positively and / or positively received. The introduction of force can take place, for example, via a cell base, which in the case of cylindrical battery cells 200 corresponds to one of the two end faces. In particular, it can be pushed in through the stop element 13th be limited.

The second sealing element extends so that such insertion can be facilitated 6th each further in from the battery cell housing 3 facing away from the battery cell housing 3 as the first sealing element 5 . Furthermore, it can be preferred that the openings 9 the second battery cell holder 82 has a larger diameter than the opening 9 the first battery cell holder 81 .

Overall, a battery module with such a design 1 inside the battery module housing 4th a flow space 14th designed for a flow of a temperature control fluid, in particular a temperature control liquid and preferably a cooling liquid, which through the first sealing element 5 , the second sealing element 6th and the battery module housing 4th as well as the battery cells 2 or the third sealing element 11 is limited.

Claims (8)

Battery module with a plurality of battery cells (2), in particular lithium-ion battery cells (20), which a battery cell housing (3) accommodating electrochemical components of the respective battery cells (2), and which are accommodated in a battery module housing (4), the battery cells (2) each having one on the battery cell housing (3) and one surrounding the battery cell housing (3) first sealing element (5) and a second sealing element (6) arranged on the battery cell housing (3) and arranged circumferentially around the battery cell housing (3), which are arranged at a distance from one another in a longitudinal direction (7) of the battery cell (2), the battery module housing (4) also forming battery cell receptacles (8) which are each designed to accommodate a battery cell (2), the battery cell receivers each comprising an opening (9) running through the battery module housing and a latching element (10), the first sealing element (5) each being a battery cell (2) with a positive fit and / or is non-positively connected to the latching element (10) of a first battery cell receptacle (81) and the second sealing element (6) of the respective battery cell (2) is positively and / or non-positively connected to the latching element (10) of a second battery cell receptacle (82). Battery module after the previous one Claim 1 , characterized in that the plurality of battery cells (2) are each designed as cylindrical battery cells (200). Battery module after one of the previous ones Claims 1 to 2 , characterized in that the battery module housing (4) is formed from a polymer material (40). Battery module after one of the previous ones Claims 1 to 3 , characterized in that the first sealing element (5) and the second sealing element (6) are formed from an elastomeric material (12). Battery module according to one of the preceding claims, characterized in that the second sealing element (6) extends further from the battery cell housing (3) in a direction remote from the battery cell housing (3) than the first sealing element (5). Battery module after one of the previous ones Claims 1 to 5 , characterized in that the first battery cell receptacles (81) each form stop elements (82) on which the battery cell housing (3), in particular an end face, and / or the first sealing element (5) bear directly mechanically. Battery module after one of the previous ones Claims 1 to 6th , characterized in that the first battery cell receptacles (81) and the second battery cell receptacles (82) are arranged opposite one another. Battery module after one of the previous ones Claims 1 to 7th , characterized in that the first sealing element (5) and the second sealing element (6) are connected by means of a third sealing element (11) arranged between the first sealing element (5) and the second sealing element (6) and covering the surface of the battery cell housing (3) are.

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