DE102020206980A1 - Battery module with a plurality of battery cells - Google Patents

Abstract

The invention relates to a battery module with a plurality of battery cells (2), which are designed in particular as lithium-ion battery cells (20), the battery cells (2) each having a first voltage tap (31) and a second voltage tap (32), and the plurality of battery cells (2) is arranged in a first number (21) of battery cells (2) and in a second number (22) of battery cells (2), wherein the battery module (1) furthermore has a parallel plate (3), which connects the first number (21) of battery cells (2) and / or the second number (22) of battery cells (2) electrically in parallel with one another, and which has a plurality of first openings (41) in each of which a battery cell (2 ) the first number (21) of battery cells (2) is received, and which has a plurality of second openings (42) in each of which a battery cell (2) of the second number (22) of battery cells (2) is received, wherein ever Because a first voltage tap (31) of a battery cell (2) of the first number (21) of battery cells (2) and a second voltage tap (32) of a battery cell (2) of the second number (22) of battery cells (2) are electrically connected to one another are.

Description

State of the art

The invention is based on a battery module with a plurality of battery cells according to the preamble of the independent claim.

It is known from the prior art that battery modules can consist of a plurality of individual battery cells, which can be connected to one another in series and / or parallel in an electrically conductive manner, so that the individual battery cells are interconnected to form the battery module.

Furthermore, such battery modules are interconnected to form batteries or battery systems.

For example, the document discloses EP 3 096 372 B1 a battery system with a plurality of cylindrical battery cells which are arranged in two battery storage modules. The battery cells of a respective battery storage module are electrically connected in parallel to one another via a parallel plate and contact springs, and the two battery storage modules are electrically interconnected in series.

Disclosure of the invention

A battery module with a plurality of battery cells with the features of the independent claim offers the advantage that a first number of battery cells and a second number of battery cells can be electrically connected in series with one another in a simple and reliable manner, the individual battery cells of the first number of battery cells and the individual battery cells of the second number of battery cells can each be electrically connected to one another in parallel.

For this purpose, a battery module with a plurality of battery cells is made available. The battery cells are designed in particular as lithium-ion battery cells. The battery cells each have a first voltage tap and a second voltage tap. In particular, the first voltage tap is a negative voltage tap and the second voltage tap is a positive voltage tap.

Furthermore, the plurality of battery cells is arranged in a first number of battery cells and in a second number of battery cells.

In addition, the battery module has a parallel plate which electrically connects the first number of battery cells and / or the second number of battery cells to one another in parallel. In particular, the parallel plate is made from an electrically conductive material, such as a metallic material and in particular a material selected from copper, aluminum and nickel.

Furthermore, the parallel plate has a plurality of first openings, in each of which one battery cell of the first number of battery cells is received.

In addition, the parallel plate has a plurality of second openings, in each of which one battery cell of the second number of battery cells is received.

Furthermore, a first voltage tap of a battery cell of the first number of battery cells and a second voltage tap of a battery cell of the second number of battery cells are connected in an electrically conductive manner.

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

It is useful if the battery cells are each designed as cylindrical battery cells. Cylindrical battery cells can also be referred to as round cells and essentially have a cylindrical jacket surface with a circular cross-sectional area, which are each closed on their two opposite sides by a circular base or cover surface. The cylindrical battery cells are particularly preferably each round cells of the 18650 type, which have a diameter of 18 mm and a height of 65 mm. The cylindrical battery cells are particularly preferably round cells of the 21700 type, which have a diameter of 21 mm and a height of 70 mm. Overall, a battery module with a serial and parallel electrical connection of a plurality of such cylindrical battery cells can thus be made available in a simple manner.

The first number of battery cells and the second number of battery cells are advantageously arranged opposite one another. This is to be understood as meaning that the individual battery cells each have a longitudinal direction and the longitudinal directions of that battery cell of the first number of battery cells and of that battery cell of the second number of battery cells which are electrically connected in series with one another are identical. In other words, this means that in each case one battery cell of the first number of battery cells and one battery cell of the second Number of battery cells are arranged opposite one another.

According to a preferred aspect of the invention, each housing of a battery cell is designed as a first voltage tap. At this point it should be noted that the housing is designed in particular as a negative voltage tap. In particular, the jacket surface and the bottom surface of a cylindrical battery cell are designed together as a first voltage tap. Overall, this offers the advantage that electrical contacting of the first voltage tap via the housing is possible in a simple manner. For example, by accommodating a battery cell of the first number of battery cells in one of the first openings or a battery cell of the second number of battery cells in one of the second openings, an electrically conductive connection can be formed between the first voltage tap of the respective battery cell and the parallel plate. At this point it should also be noted that, for example, the second voltage tap can be formed on a cover surface and is electrically isolated from the rest of the housing.

It is also preferred if the battery module has insulation arranged within the first opening or within the second opening. This insulation electrically isolates the housing of the battery cell within the first opening or within the second opening from the parallel plate. This makes it possible to create a more reliable electrical connection.

At this point it should also be noted that it is of course possible to electrically isolate the area of the battery cell that is not arranged within the first opening and the second opening so that an electrically conductive temperature control fluid such as water could flow around it.

The first voltage tap of the battery cell of the first number of battery cells is expediently formed in each case on a bottom surface of the battery cell and the second voltage tap of the battery cell of the second number of battery cells is in each case formed on a cover surface of the battery cell. In addition, the electrical connection is preferably formed directly. Such a design allows an electrically conductive connection to be formed in a simple manner between the first voltage tap of the battery cell of the first number of battery cells and the second voltage tap of the battery cell of the second number of battery cells.

It is particularly preferred if the battery module has a plurality of parallel plates which are electrically connected in series and / or in series with one another. In particular, such a battery module also has a plurality of first numbers of battery cells and a plurality of second numbers of battery cells. At this point it should be noted that it is entirely possible that the first number of battery cells which are assigned to a first parallel plate simultaneously forms the second number of battery cells which are assigned to a second parallel plate.

This makes it possible to provide different configurations of battery modules.

Furthermore, it is also expedient if the battery module has at least one end plate, which connects a first number of battery cells or a second number of battery cells, which are in particular arranged electrically at the end, electrically in parallel with one another.

The battery cells can be accommodated in the respective openings by means of friction welding or gluing, for example.

Figure list

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

• 1 eine Ausführungsform eines erfindungsgemäßen Batteriemoduls schematisch in einer Schnittansicht von der Seite,
• 2 eine Ausführungsform einer Parallelplatte eines erfindungsgemäßen Batteriemoduls und
• 3 eine Ausführungsform eines weiteren Batteriemoduls.

It shows:

• 1 an embodiment of a battery module according to the invention schematically in a sectional view from the side,
• 2 an embodiment of a parallel plate of a battery module according to the invention and
• 3 an embodiment of a further battery module.

the 1 shows an embodiment of a battery module according to the invention 1 schematically in a sectional view from the side.

The battery module 1 has a plurality of battery cells 2 on, which in particular as lithium-ion battery cells 20th are trained.

According to the embodiment of 1 are the battery cells 2 preferably as cylindrical battery cells 200 educated.

The battery cells 2 each have a first voltage tap 31 and a second voltage tap 32 on. The first voltage tap 31 is in particular a negative voltage tap. The second voltage tap 32 is in particular a positive voltage tap. In the Embodiment according to 1 is one housing each 5 the battery cell 2 and in particular the cylindrical battery cell 200 as the first voltage tap 31 educated.

The majority of battery cells 2 is in a first number 21 on battery cells 2 and in a second number 22nd on battery cells 2 arranged. At this point it should be noted that in the 1 only one battery cell at a time 2 the first number 21 on battery cells 2 and only one battery cell at a time 2 the second number 22nd on battery cells 2 is shown.

The first voltage tap 31 the battery cell 2 the first number 21 on battery cells 2 is in each case on a floor area 51 the battery cell 2 educated.

The second voltage tap 32 the battery cell 2 the second number 22nd on battery cells 2 is in each case on a cover surface 52 the battery cell 2 educated.

It should be noted at this point that the first voltage tap 31 thereby from the housing 5 is trained. In particular, is the first voltage tap 31 thereby from a lateral surface 53 and a floor area 51 educated. The second voltage tap 32 is opposite the housing 5 electrically isolated.

Furthermore, the battery module 1 a parallel plate 3 on. The parallel plate 3 connects the first number 21 on battery cells 2 and / or the second number 22nd on battery cells 2 electrically in parallel with each other.

The parallel plate 3 has a plurality of first openings 41 on. In a first opening 41 is one battery cell each 2 the first number 21 on battery cells 2 recorded. This enables the first voltage taps 31 the first number 21 on battery cells 2 electrically conductive with the parallel plate 3 be connected. The case 5 is electrically conductive with the parallel plate 3 connected.

The parallel plate 3 has a plurality of second openings 42 on. In a second opening 42 is one battery cell each 2 the second number 22nd on battery cells 2 recorded. This enables the first voltage taps 31 the second number 22nd on battery cells 2 electrically conductive with the parallel plate 3 be connected. The case 5 is electrically conductive with the parallel plate 3 connected.

At this point it should be noted that in the 1 only one opening at a time 41 and only one second opening at a time 42 is shown.

In addition, in 1 shown that the first 41 Openings and the second openings 42 a ridge on each edge 8th to increase the stability.

Furthermore, from the 1 to realize that the first opening 41 and the second opening 42 preferably also as one through the parallel plate 3 common opening extending continuously therethrough can be formed.

In addition, from the 1 to recognize that a first voltage tap 31 a battery cell 2 the first number 21 on battery cells 2 and a second voltage tap 32 a battery cell 2 the second number 22nd on battery cells 2 are electrically connected to each other. In particular, this connection is formed directly.

The battery module 1 faces inside the first opening 41 or the second opening 42 an isolation 6th on. The isolation 6th insulates the housing 5 the battery cell 2 inside the first opening 41 or within the second opening 42 opposite the parallel plate 3 electric.

From the 1 can also be seen that the first number 21 on battery cells 2 and the second number 22nd on battery cells 2 are arranged opposite one another.

the 2 shows an embodiment of a parallel plate 3 a battery module according to the invention 1 .

The parallel plate 3 is essentially flat. Furthermore is the parallel plate 3 made of an electrically conductive material 7th such as a metallic material 70 , educated.

In the 2 is still a series of first openings 41 indicated.

the 3 shows an embodiment of a further battery module 1 .

The battery module 1 has a plurality of parallel plates 3 on. In particular, the battery module 1 here two parallel plates 3 on. Each of the parallel plates 3 is a first number 21 on battery cells 2 and a second number 22nd on battery cells 2 assigned. In this respect corresponds to that in 3 Shown embodiment of the battery module 1 the Indian 1 embodiment of the battery module shown 1 .

From the 3 you can see that the middle battery cells 2 the first number 21 on battery cells 2 the lower parallel plate 3 and that the middle battery cells 2 at the same time the second Quantity 22nd on battery cells 2 the upper parallel plate 3 are.

At this point it should be noted that from the first numbers 21 on battery cells 2 and from the second numbers 22nd on battery cells 2 only one of the battery cells at a time 2 is shown.

In addition, the battery module 1 End plates 9 on which an electrically terminally arranged first number 21 on battery cells 2 or a second number arranged electrically at the end 22nd on battery cells 2 electrically connected in parallel with each other.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the 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.

Patent literature cited

• EP 3096372 B1 [0004]

Claims (8)

Battery module with a plurality of battery cells (2), which are designed in particular as lithium-ion battery cells (20), the battery cells (2) each having a first voltage tap (31) and have a second voltage tap (32), and the plurality of battery cells (2) is arranged in a first number (21) of battery cells (2) and in a second number (22) of battery cells (2), wherein the battery module (1) furthermore has a parallel plate (3) which connects the first number (21) of battery cells (2) and / or the second number (22) of battery cells (2) electrically in parallel, and which connects a plurality of first Has openings (41), in each of which a battery cell (2) of the first number (21) of battery cells (2) is received, and which has a plurality of second openings (42), in each of which a battery cell (2) of the second number (22) of battery cells (2) is received, a first voltage tap (31) of a battery cell (2) of the first number (21 ) on battery cells (2) and a second voltage tap (32) of a battery cell (2) of the second number (22) of battery cells (2) are connected to one another in an electrically conductive manner. Battery module after the previous one Claim 1 , characterized in that the battery cells (2) are each designed as cylindrical battery cells (200). Battery module after one of the previous ones Claims 1 until 2 , characterized in that the first number (21) of battery cells (2) and the second number (22) of battery cells (2) are arranged opposite one another. Battery module after one of the previous ones Claims 1 until 3 , characterized in that in each case a housing (5) of a battery cell (2) is designed as a first voltage tap (31). Battery module after the previous one Claim 4 , characterized in that the battery module (1) has an insulation (6) arranged inside the first opening (41) or inside the second opening (42), which insulation (5) of the battery cell (2) inside the first opening (41 ) or within the second opening (42) electrically isolated from the parallel plate (3). Battery module after one of the previous ones Claims 1 until 5 , characterized in that the first voltage tap (31) of the battery cell (2) of the first number (21) of battery cells (2) is formed in each case on a bottom surface (51) of the battery cell (2) and the second voltage tap (32) of the battery cell (2) the second number (22) of battery cells (2) is formed in each case on a cover surface (52) of the battery cell (2), the electrical connection in particular being formed directly. Battery module after one of the previous ones Claims 1 until 6th , characterized in that the battery module (1) has a plurality of parallel plates (3) which are electrically connected in series and / or in series with one another. Battery module after one of the previous ones Claims 1 until 7th , characterized in that the battery module (1) has at least one end plate (9) which has a first number (21) of battery cells (2) or a second number (22) of battery cells (2) electrically parallel to one another, in particular electrically terminally arranged interconnected.

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