DE102020119838A1 - battery cell housing - Google Patents

Abstract

A battery cell housing (8) with a bursting membrane (3) is described, the battery cell housing (8) having at least one groove (5) on an inside, which extends in the direction of the bursting membrane (3).

Description

The invention relates to a battery cell housing, in particular a battery cell housing for a battery cell of a high-voltage battery.

In electrically driven motor vehicles such as electric vehicles, hybrid or plug-in hybrid vehicles, high-voltage batteries are used, which typically have one or more battery modules, each with a plurality of battery cells. Due to the high energy density that can be achieved, lithium-ion batteries in particular are used in motor vehicles. Here and in the following, the term "lithium-ion battery" is used synonymously for all designations commonly used in the prior art for lithium-containing galvanic elements and cells, such as lithium battery, lithium cell, lithium ion cell, lithium polymer cell and lithium ion battery. Specifically, rechargeable batteries (secondary batteries) are included. The terms "battery" and "electrochemical cell" are also used synonymously with the term "lithium-ion battery". The lithium-ion battery can also be a solid-state battery, for example a ceramic or polymer-based solid-state battery.

In the event of a mechanical impact on the battery cell, which causes deformation and/or the penetration of a sharp object into the battery cell, for example, or if the battery cell is overcharged, there may be a risk of the battery cell overheating. Exothermic electrode reactions, for example due to a short circuit in the electrodes, can cause the battery cell to thermally run away. At high temperatures, the electrolyte contained in the battery cell can in particular evaporate, as a result of which a critical overpressure occurs in the battery cell. In a battery module with multiple battery cells, the thermal runaway of a battery cell can lead to overheating spreading to the neighboring battery cells, so that there can be a risk of damaging the entire battery module or even the entire high-voltage battery if this is not prevented by suitable safety measures.

In the pamphlet DE 10 2015 014 343 A1 a cell holder for a battery cell is described, which has an opening with a bursting membrane on a housing surface for overpressure reduction. Such a bursting membrane is intended to discharge the gas produced by evaporation of the electrolyte and in this way to reduce the overpressure in the battery cell without damaging adjacent battery cells.

It is an object of the invention to specify an improved battery cell housing which is characterized in particular by an improved gas flow to the bursting membrane at a critical pressure in the battery cell.

This object is achieved by a battery cell housing according to claim 1. Advantageous embodiments and developments of the invention result from the dependent claims.

According to one embodiment of the invention, the battery cell housing has a bursting membrane. In addition, the battery cell housing has at least one groove on an inside, which extends in the direction of the bursting membrane. The groove is in particular a recess formed in the material of the battery cell housing. The battery cell housing is made of a metal or a metal alloy, for example, preferably aluminum. The groove can be created in the material of the battery cell housing by a forming technique such as embossing or rolling, or by a machining process such as embossing. The groove is intended to form a flow channel for gas in the direction of the bursting membrane, so that when the battery cell is in a critical state, in particular when the battery cell is inflated, the gas can flow to the bursting membrane.

The invention is based in particular on the considerations presented below: A bursting membrane of a battery cell housing is typically intended to burst when a critical pressure in the battery cell is exceeded. The pressure on the bursting membrane is created by gas that can form in the battery cell in a critical condition. The gas can in particular be evaporated electrolyte. However, if the battery cell inflates in a critical state, there may be a risk that the battery cell presses on the battery cell housing from the inside in such a way that the path for the gas to the bursting membrane is blocked. The proposed groove on the inside of the battery cell housing advantageously means that even if the battery cell in the battery cell housing swells up, a path to the bursting membrane remains free for the gas in the battery cell housing. In the battery cell housing according to the invention, gases can flow in the direction of the bursting membrane even when the battery cell is inflated and cause it to burst and/or escape from a bursting membrane that has already been opened by excess pressure. In this way, an overpressure in the battery cell can advantageously be reduced. Since the leakage of the electrolyte gas is an endothermic reaction, it can lower the cell temperature. In addition, the internal resistance increases of the battery cell due to the leakage of the electrolyte. This reduces the risk of thermal runaway in the battery cell. Furthermore, the risk of the critical state of the battery cell spreading to neighboring cells of a battery module is reduced.

According to one embodiment, the best membrane is arranged on a cover of the battery cell housing. The at least one groove is preferably also arranged on an inside of the cover. In this case, gases can flow along the groove on the inside of the cover to the bursting membrane.

In an advantageous embodiment, the at least one groove extends in its longitudinal direction over at least 50%, preferably over at least 60% or even at least 70% of the length of the cover. In particular, the groove can essentially extend over all areas of the cover that are not occupied by other functional elements such as the terminals or the bursting membrane.

The battery cell housing is particularly suitable for prismatic battery cells. The battery cell housing can, for example, have a rectangular base area and be essentially cuboid. Advantageously, prismatic battery cells can easily be stacked and assembled into a battery module. The battery cell housing can have a bottom wall, side walls and the cover, for example.

The battery cell housing can have a first and a second terminal on the cover, with the bursting membrane being arranged between the terminals. In this case, the at least one groove is advantageously arranged between the first terminal and the bursting membrane and/or between the second terminal and the bursting membrane . The groove can also be located on parts of the lid that are outside the terminals.

In a further advantageous configuration, the battery cell housing has side walls, with the groove being arranged on at least one side wall. The at least one groove is preferably arranged on two opposite side walls. The at least one groove can in particular be arranged both on the cover and on the at least one side wall or the two opposite side walls. In this way it is achieved that the gas can flow in the direction of the bursting membrane both via the groove on the side wall and via the groove on the cover.

In one configuration, the battery cell housing has at least one additional groove on the inside. The at least one further groove can in particular be arranged parallel to the groove, with the groove and the further groove being able to have the same length and/or the same width, for example. More than two grooves can also be arranged, in particular parallel to one another. The at least two grooves allow gas to flow in the direction of the bursting membrane even when one of the grooves is blocked.

A lithium-ion battery with several of the battery cell housings described herein and a motor vehicle with such a lithium-ion battery are also proposed. Due to the improved safety, the battery cell housing described herein can advantageously be used in a lithium-ion battery, which can be used in particular as a traction battery in an electrically driven motor vehicle.

• 1 eine perspektivische Darstellung eines Batteriezellgehäuses gemäß einem Ausführungsbeispiel,
• 2 einen Querschnitt durch das Batteriezellgehäuse bei dem Ausführungsbeispiel,
• 3 eine Draufsicht auf die Innenseite des Deckels des Batteriezellgehäuses bei dem Ausführungsbeispiel,
• 4 einen Querschnitt durch den Deckel bei dem Ausführungsbeispiel,
• 5 eine Draufsicht auf die Innenseite des Deckels des Batteriezellgehäuses bei einem weiteren Ausführungsbeispiel, und
• 6 einen Querschnitt durch den Deckel bei dem weiteren Ausführungsbeispiel.

Exemplary embodiments of the invention are described below with reference to the figures. This results in further details, preferred embodiments and developments of the invention. Specifically show schematic

• 1 a perspective view of a battery cell housing according to an embodiment,
• 2 a cross section through the battery cell housing in the embodiment,
• 3 a plan view of the inside of the cover of the battery cell housing in the embodiment,
• 4 a cross section through the cover in the embodiment,
• 5 a plan view of the inside of the cover of the battery cell housing in a further embodiment, and
• 6 a cross section through the cover in the further embodiment.

Components that are the same or have the same effect are each provided with the same reference symbols in the figures. The components shown and the proportions of the components among one another are not to be regarded as true to scale.

This in 1 Schematically illustrated battery cell housing 8 is a housing for a prismatic battery cell in the embodiment shown here. The battery cell housing 8 forms a mechanically strong casing for the cell layers of the battery cell arranged therein. In the battery cell, the cell layers can, for example, as Cell stacks or cell coils are present. In the exemplary embodiment, the battery cell housing 8 has a rectangular base area and is essentially cuboid. The battery cell case 8 may be formed of a metal such as aluminum. It is possible for the battery cell housing 8 to have an electrically insulating coating at least in regions. The battery cell has a first terminal 1 and a second terminal 2, the terminals 1, 2 being arranged on a cover 4 of the battery cell housing 8, for example. The terminals 1, 2 are provided for making electrical contact with the poles of the cell stack or cell coil of the battery cell 10. In the 1 a bursting membrane 3 arranged on the cover 4 of the housing can also be seen, which is arranged for example in the area between the terminals 1, 2.

the 2 shows a schematic cross-sectional view of the battery cell housing 8. The bursting membrane 3 is, for example, an area in the middle of the cover 4 in which the material of the battery cell housing 8 is thinned. The bursting membrane 3 can, for example, have a thickness between 100 μm and 300 μm inclusive. A groove 5 is formed on the inside of the cover 4 and on the insides of the side walls 7 in the battery cell housing 8 .

the 3 and 4 show the groove 5 in a plan view of the inside of the cover 4 and in a cross-sectional view of the cover 4. The groove 5 can be produced, for example, by embossing in the material of the battery cell housing 8. The groove 5 extends in its longitudinal direction over the areas of the cover 4 that are not occupied by other functional elements such as the terminals 1, 2 and the bursting membrane. The groove 5 advantageously forms a flow channel for gas to the bursting membrane 3 . In this way, a flow of gases, in particular gas from an evaporated electrolyte, to the bursting membrane 3 is also made possible when the battery cell expands inside the battery cell housing 8 and presses against the battery cell housing 8 from the inside. Blocking of the bursting membrane 3 is prevented in this way and the safety of the battery cell is increased.

the 5 and 6 show a plan view of the inside of the cover 4 and a cross-sectional view of the cover 4 in a further embodiment. In this example, in addition to the groove 5, a further groove 6 is formed on the inside of the battery cell housing. The grooves 5, 6 can, in particular, run parallel to one another and are, for example, of the same width. The safety of the battery cell housing 8 is further increased by two grooves 5, 6, since even if one groove 5 is blocked, the other groove 6 can still form a flow channel for gases to the bursting membrane 3. It is also conceivable that more than two grooves 5, 6 are formed on the inside of the battery cell housing 8.

Although the invention has been illustrated and described in detail using exemplary embodiments, the invention is not restricted by the exemplary embodiments. On the contrary, other variations of the invention can be derived therefrom by a person skilled in the art without departing from the protective scope of the invention as defined by the claims.

Reference List

1

first terminal

2

second terminal

3

rupture membrane

4

lid

5

groove

6

another groove

7

Side wall

8th

battery cell housing

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited 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

• DE 102015014343 A1 [0004]

Claims (10)

Battery cell housing (8) with a bursting membrane (3), the battery cell housing (8) having at least one groove (5) on an inside, which extends in the direction of the bursting membrane (3). battery cell housing claim 1 , wherein the best membrane (3) is arranged on a cover (4) of the battery cell housing (8), and wherein the groove (5) is arranged on the inside of the cover (4). battery cell housing claim 2 , wherein the at least one groove (5) extends in its longitudinal direction over at least 50% of the length of the cover (4). battery cell housing claim 3 , wherein the at least one groove (5) extends in its longitudinal direction over at least 70% of the length of the lid (4). Battery cell housing according to one of claims 2 until 4 , wherein the battery cell housing (8) on the cover (4) has a first terminal (1) and a second terminal (2), wherein the bursting membrane (3) is arranged between the terminals (1, 2), and wherein the at least one Groove (5) is arranged between the first terminal (1) and the bursting membrane (3) and/or between the second terminal (2) and the bursting membrane (3). Battery cell housing according to one of the preceding claims, wherein the groove (5) is arranged on at least one side wall (7) of the battery cell housing (8). Battery cell housing according to one of the preceding claims, wherein the battery cell housing (8) has at least one further groove (6) on the inside. battery cell housing claim 7 , wherein the at least one further groove (6) runs parallel to the groove (5). A lithium-ion battery comprising a plurality of battery cell housings (8) according to any one of the preceding claims. Motor vehicle comprising a lithium ion battery according to claim 9 .

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