DE102020207400A1 - Battery module - Google Patents

Abstract

A battery module with a plurality of cylindrical battery cells, comprising: - a battery module housing; - a battery cell holder for receiving the battery cells; - at least one wave-shaped intermediate element along the battery cells, - the wave-shaped intermediate element at least partially enclosing the battery cells; - the wave-shaped intermediate element being a thermal bridge forms between the battery cells and the battery module housing; - wherein the wave-shaped intermediate element supports the battery cells, preferably in the radial direction of the battery cells.

Description

The invention is based on a battery module with a plurality of cylindrical battery cells, a method for producing a battery module and a use of the battery module according to the preamble of the independent claims.

State of the art

Round cells are usually used in light electric vehicles. These cells are usually held in place by plastic frames that enclose spaces. In batteries for light electric vehicles, for example eScooters, an active cooling system is often not used, which is why the heat loss must be kept low. This limits the use of the batteries, as the battery cells could deliver a significantly higher output.

The document JP H09-306447 discloses a battery pack having partition plates that electrically isolate each of the battery banks and radiate generated heat from the respective battery banks.

The document EP 1274137 A1 discloses a battery pack containing a plurality of cells which are stacked in layers and a heat collecting plate made of a corrugated metal sheet, which is arranged between the levels of the cells.

The document US 2011/305930 discloses a battery pack comprising a battery pack having rows of batteries.

It is the object of the present invention to further improve the state of the art. This object is achieved by the features of the independent claims.

Disclosure of the invention

Advantages of the invention

• - ein Batteriemodulgehäuse;
• - einen Batteriezellhalter zum Aufnehmen der Batteriezellen;
• - mindestens ein wellenförmiges Zwischenelement entlang der Batteriezellen,
• - wobei das wellenförmige Zwischenelement die Batteriezellen zumindest teilweise umschließt;
• - wobei das wellenförmige Zwischenelement eine thermische Brücke zwischen den Batteriezellen und dem Batteriemodulgehäuse ausbildet;
• - wobei das wellenförmige Zwischenelement die Batteriezellen, vorzugsweise in radialer Richtung der Batteriezellen, abstützt.

In contrast, the procedure according to the invention with the characterizing features of the independent claims has the advantage that the battery module further comprises:

• - a battery module housing;
• - A battery cell holder for receiving the battery cells;
• - at least one wave-shaped intermediate element along the battery cells,
• - wherein the corrugated intermediate element at least partially encloses the battery cells;
• - wherein the wave-shaped intermediate element forms a thermal bridge between the battery cells and the battery module housing;
• - wherein the corrugated intermediate element supports the battery cells, preferably in the radial direction of the battery cells.

The wave-shaped intermediate element achieves a significantly better thermal transition between the battery cells and the battery module housing, which means, for example, that more power can be drawn from the battery module and / or power can be fed into the battery module.

Furthermore, by supporting the battery cells in the radial direction, effective protection ("propagation security") against lateral bursting of a battery cell in the event of a battery cell fire is achieved, which effectively prevents a fire from spreading to the neighboring battery cells and thus a thermal runaway of the battery module.

Further advantageous embodiments are the subject of the subclaims.

The wave-shaped intermediate element rests at least partially on the battery cells and / or the battery module housing. As a result, cavities between the battery cells and the battery cell holder are filled, as a result of which heat can be better dissipated from the battery cells and the battery cells are supported.

The wave-shaped intermediate element has a polygon as its basic shape, which allows free cavities to be closed between the battery cells.

The battery cells in the battery cell holder are arranged in essentially straight battery cell rows, the battery cell rows being arranged parallel to one another and being spaced apart from one another by the battery cell holder. This achieves a compact design for the battery module. Furthermore, the battery cells can be electrically connected in series and / or in parallel by means of battery cell connectors.

The battery cell holder comprises clamping and / or snap hooks for the form-fitting connection of the battery cells to the battery cell holder. A particularly vibration-proof mounting of the battery cells is achieved in this way.

The wave-shaped intermediate element is electrically insulating. This prevents leakage currents and improves the protection against accidental contact.

The corrugated intermediate element is hardly inflammable and / or self-extinguishing. This effectively prevents a fire from spreading to the neighboring battery cells and thus prevents the battery module from thermal runaway.

The wave-shaped intermediate element comprises an epoxy resin, a plastic, acrylate, polyurethane and / or ceramic. As a result, the corrugated intermediate element has a certain flexible mechanical nature.

1. a.) Einsetzen einer Mehrzahl von Batteriezellen in einen Batteriezellhalter, wodurch eine kraft- und formschlüssige Verbindung zwischen den Batteriezellen und dem Batteriezellhalter entsteht;
2. b.) Elektrisches Kontaktieren der Batteriezellen mit elektrisch leitenden Batteriezellverbindern;
3. c.) Einschieben mindestens eines wellenförmigen Zwischenelements in Längsrichtung der Batteriezellen, wodurch das wellenförmige Zwischenelement die Batteriezellen teilweise umschließt und an den Batteriezellen anliegt;
4. d.) Einsetzen des Batteriezellhalters in ein Batteriemodulgehäuse;
5. e.) Elektrisches Kontaktieren der Batteriezellverbinder mit elektrischen Anschlusspolen des Batteriemoduls.

A method according to the invention for producing a battery module comprises the following steps:

1. a.) Inserting a plurality of battery cells into a battery cell holder, whereby a non-positive and positive connection is created between the battery cells and the battery cell holder;
2. b.) Electrical contacting of the battery cells with electrically conductive battery cell connectors;
3. c.) inserting at least one wave-shaped intermediate element in the longitudinal direction of the battery cells, whereby the wave-shaped intermediate element partially surrounds the battery cells and rests against the battery cells;
4. d.) inserting the battery cell holder into a battery module housing;
5. e.) Electrical contacting of the battery cell connectors with electrical connection poles of the battery module.

The method according to the invention is not restricted to the illustrated sequence of the embodiment. Rather, steps a to c can take place in any order, repeatedly, one after the other and / or simultaneously.

A battery module according to the invention is advantageously used in electrical energy storage devices for electric vehicles, fuel cell vehicles, hybrid vehicles, plug-in hybrid vehicles, aircraft, pedelecs or e-bikes, for portable devices for telecommunications or data processing, for electric hand tools or kitchen appliances, and in stationary storage devices for storage in particular regeneratively generated electrical energy.

Figure list

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

• 1 eine schematische Darstellung einer ersten Ausführungsform eines erfindungsgemäßen Zwischenelements; und
• 2 eine erste schematische Darstellung einer Ausführungsform eines erfindungsgemäßen Batteriemoduls; und
• 3 eine zweite schematische Darstellung einer Ausführungsform eines erfindungsgemäßen Batteriemoduls.

Show it:

• 1 a schematic representation of a first embodiment of an intermediate element according to the invention; and
• 2 a first schematic representation of an embodiment of a battery module according to the invention; and
• 3 a second schematic representation of an embodiment of a battery module according to the invention.

Detailed description of the exemplary embodiments

The same reference symbols denote the same device components in all figures.

1 shows a schematic representation of a first embodiment of an intermediate element according to the invention 100 . The intermediate element according to the invention 100 comprises, in the embodiment shown, a wave-shaped region 101 for partially enclosing battery cells 103 (1) , 103 (2) , 103 (n) , 104 (1) , 104 (2) , 104 (n) and a cuboid area 102 to form a thermal bridge between the battery cells 103 (1) , 103 (2) , 103 (n) , 104 (1) , 104 (2) , 104 (n) and a battery module housing.

2 shows a first schematic representation of an embodiment of a battery module according to the invention. A battery cell holder 200 , preferably made in several parts, comprises a large number of recesses 202 for holding battery cells by clamping hooks 203 form-fitting in the battery cell holder 200 being held. The battery cell holder 200 has gaps in which at least one wave-shaped intermediate element 201 is inserted. This wavy intermediate element 201 is advantageously insertable as an additional element in a battery module, so that an adaptation to other parts of the battery module is not necessary.

The support of the battery cells in the radial direction provides effective protection against lateral bursting of battery cells in the event of a battery cell fire, which effectively prevents the fire from spreading to the neighboring battery cells and thus preventing the battery module from thermal runaway.

3 shows a second schematic representation of an embodiment of a battery module according to the invention 300 . The battery module 300 includes a battery module housing 301 , preferably made of an extruded aluminum profile. A battery cell holder (not shown) includes a plurality of Battery cells 302 (1) , 302 (2) , 302 (n) as well as a plurality of intermediate elements according to the invention 303 (1) , 303 (m) running in the longitudinal direction of the battery cells 302 (1) , 302 (2) , 302 (n) are extended and these are the battery module housing 301 touch. This creates a thermal bridge, which removes heat from the battery cells 302 (1) , 302 (2) , 302 (n) via the battery module housing 301 can be discharged.

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

• JP H09306447 [0003]
• EP 1274137 A1 [0004]
• US 2011305930 [0005]

Claims (10)

Battery module (300) with a plurality of cylindrical battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 (2) , 302 (n)), comprising: - A battery module housing (301); - A battery cell holder (200) for receiving the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 (2) , 302 (n)); - At least one wave-shaped intermediate element (100, 201, 303 (1), 303 (m)) along the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 (2), 302 (n)), - wherein the corrugated intermediate element is the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 (2), 302 ( n)) at least partially encloses; - wherein the corrugated intermediate element forms a thermal bridge between the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 (2 ), 302 (n)) and the battery module housing (301); - wherein the corrugated intermediate element is the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 (2), 302 ( n)), preferably in the radial direction of the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 (2) , 302 (n)). Battery module (300) according to one of the preceding claims, wherein the undulating intermediate element is at least partially attached to the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 (2), 302 (n)) and / or the battery module housing (301). Battery module (300) according to one of the preceding claims, wherein the wave-shaped intermediate element has a polygon as a basic shape. Battery module (300) according to one of the preceding claims, wherein the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 (2), 302 (n)) are arranged in the battery cell holder (200) in essentially straight battery cell rows, the battery cell rows being arranged parallel to one another and being spaced apart from one another by the battery cell holder (200); The battery module (300) according to any one of the preceding claims, wherein the battery cell holder (200) comprises clamping hooks and / or snap hooks (203); Battery module (300) according to one of the preceding claims, wherein the wave-shaped intermediate element is electrically insulating. Battery module (300) according to one of the preceding claims, wherein the undulating intermediate element is flame-retardant and / or self-extinguishing. Battery module (300) according to one of the preceding claims, wherein the wave-shaped intermediate element comprises an epoxy resin, a plastic, acrylate, polyurethane and / or ceramic. Method for producing a battery module (300) according to one of the Claims 1 until 8th comprising the following steps: a.) Inserting a plurality of battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 ( 2), 302 (n)) in a battery cell holder (200), creating a non-positive and positive connection between the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2) , 104 (n), 302 (1), 302 (2), 302 (n)) and the battery cell holder (200); b.) Electrical contacting of the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 (2), 302 ( n)) with electrically conductive battery cell connectors; c.) Inserting at least one wave-shaped intermediate element in the longitudinal direction of the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1), 302 ( 2), 302 (n)), whereby the corrugated intermediate element separates the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 (1) , 302 (2), 302 (n)) partially and attached to the battery cells (103 (1), 103 (2), 103 (n), 104 (1), 104 (2), 104 (n), 302 ( 1), 302 (2), 302 (n)) is applied; d.) inserting the battery cell holder (200) into a battery module housing (301); e.) Electrical contacting of the battery cell connectors with electrical connection poles of the battery module (300). Use of a battery module (300) according to one of the Claims 1 until 9 in electrical energy storage devices for electric vehicles, fuel cell vehicles, hybrid vehicles, plug-in hybrid vehicles, aircraft, pedelecs or e-bikes, for portable devices for telecommunications or data processing, for electrical hand tools or kitchen appliances, as well as in stationary storage devices for storing electrical energy obtained from renewable sources in particular.

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