DE102020200075A1 - Battery cell and battery module with such battery cells - Google Patents

Abstract

The invention relates to a battery cell, in particular a lithium-ion battery cell (100), comprising a prismatic housing (2) in which electrochemical components of the battery cell (1) are accommodated, and at least one voltage tap (4) which is located on a side surface of the prismatic Housing (2) is arranged, wherein the at least one voltage tap (4) tapers in a longitudinal direction (6) arranged parallel to a largest side surface (5) of the housing (2).

Description

State of the art

The invention is based on a battery cell according to the preamble of the independent claim. The present invention also relates to a battery module with such battery cells.

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.

Furthermore, the plurality of battery cells of the battery module are usually mechanically braced or pressed with one another. This is intended to counteract a deformation of the plurality of battery cells. For example, it is known here that a plurality of battery cells is arranged between two end plates and the end plates are connected to one another by means of side plates. Such a connection can be formed, for example, with a material fit by welding or with a positive and / or non-positive fit by means of screws.

Battery cells with prismatic housing are generally known from the prior art, which comprise voltage taps on a cover surface of the respective housing, which have a rectangular base area.

Disclosure of the invention

A battery cell with the features of the independent claim offers the advantage that the battery cell is easily accessible to tension in all three spatial directions. By designing a voltage tap of the battery cell according to the invention, fixing of such a battery cell can be supported, in particular fixing in the vertical direction can be supported.

For this purpose, a battery cell, which is designed in particular as a lithium-ion battery cell, is made available.

The battery cell comprises a prismatic housing in which electrochemical components of the battery cell are accommodated.

Furthermore, the battery cell comprises at least one voltage tap which is arranged on a side surface of the prismatic housing.

This at least one voltage tap tapers in a longitudinal direction arranged parallel to a largest side surface of the housing.

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

Prismatic housing of a battery cell preferably comprises a total of six side surfaces, of which side surfaces arranged opposite one another are arranged parallel to one another and are of the same size. Furthermore, side surfaces arranged adjacent to one another are respectively arranged perpendicular to one another.

Battery modules with a plurality of battery cells with such prismatic housings are preferably designed in such a way that the battery cells are arranged with their largest side surfaces adjacent to one another in a longitudinal direction of the battery module.

It is expedient if the voltage tap is designed symmetrically to a plane arranged parallel to a largest side surface. This offers the particular advantage that reliable bracing is possible, in particular in the vertical direction of the battery cell, since a bracing element can be arranged in a simple and reliable manner.

The at least one voltage tap is particularly preferably arranged on a cover surface of the housing. At this point it should be noted that cover surfaces usually form the top of a battery module. Such a design offers the advantage that an electrical interconnection, particularly of a plurality of such battery cells, can be easily implemented.

It is particularly expedient if the battery module has two voltage taps, a first voltage tap being designed as a positive voltage tap and a second voltage tap being designed as a negative voltage tap. Such battery cells can be connected to one another in an electrically conductive manner in series and / or in parallel in a particularly simple manner by means of cell connectors. At this point, it should also be noted that the voltage taps are preferably both arranged on the cover surface of the housing, so that particularly simple interconnection is possible. In particular, the voltage tap is electrically isolated from the housing of the battery cell.

A degassing opening can also be arranged between the two voltage taps. Such a degassing opening is designed to discharge gas from an interior of the housing of the battery cell. In particular, the degassing opening comprises a safety valve which closes the degassing opening and only opens when a specific, safety-critical pressure inside the housing of the battery cell is exceeded. Therefore, such a degassing opening is used in particular for degassing in a safety-critical case.

Furthermore, it can also be expedient if the housing of the battery cell is designed as a further voltage tap and the voltage tap is electrically isolated from the housing.

This offers the advantage that when a plurality of battery cells are arranged to form a battery module by contacting the individual housings of the battery cells, in particular the respective largest side surfaces of the battery cells, the further voltage taps are electrically connected to one another. The voltage taps of the individual battery cells can be connected in an electrically conductive manner by means of cell connectors. Such a design can accordingly be preferred in particular in the case of a parallel connection.

It is useful if the taper is designed as a bevel. In particular, an angle of 30 degrees to 60 degrees and particularly preferably 45 degrees is formed between the bevel and the longitudinal direction. At this point, it should be noted that the angle should be understood which faces the voltage tap.

The tapering is particularly preferably arranged at an end of the voltage tap arranged directly adjacent to a smallest side surface of the housing. At this point it should be noted that the smallest side surface of the housing can in particular also be referred to as the end face. In the case of a battery module with a plurality of battery cells, such smallest side surfaces or end faces usually form a vertically arranged outer surface of the battery module. Such a design offers the particular advantage that the battery module can also be braced or fixed in the vertical direction by a bracing element, since this can engage in places on the top or cover surface of the battery cell left free by the taper.

It should be noted at this point that the at least one voltage tap of the battery cells should be arranged as close as possible to the smallest side surface of the prismatic housing, since the at least one voltage tap is still electrically conductive with an anode or a cathode, which are each part of the electrochemical located inside the housing Components are connected. Thus, the electrochemical components such as a so-called jelly roll can be left as much space as possible. The direct distance between the smallest side surface and the at least one voltage tap is preferably less than ten percent and preferably less than five percent of the total length of the cover surface.

The present invention also relates to a battery module with a plurality of battery cells just described. The battery cells are connected to one another in an electrically conductive manner by cell connectors, the cell connectors each being electrically conductively connected to the at least one voltage taps of the respective battery cell.

It is particularly expedient if the battery module comprises a bracing element which engages in the taper. As a result, the battery cells can be fixed in a height direction.

Figure list

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

• 1 eine Ausführungsform einer erfindungsgemäßen Batteriezelle in einer Draufsicht und
• 2 eine Ausführungsform eines erfindungsgemäßen Batteriemoduls in einer perspektivischen Ansicht.

It shows:

• 1 an embodiment of a battery cell according to the invention in a plan view and
• 2 an embodiment of a battery module according to the invention in a perspective view.

1 shows an embodiment of a battery cell according to the invention in a plan view 1 .

The battery cell 1 is in particular as a lithium-ion battery cell 100 educated.

The battery cell 1 includes a prismatic housing 2 . Of the six side faces of the housing mentioned at the beginning 2 is in the 1 only one lid surface 3 to recognize, which can also be referred to as the top. In this prismatic case 2 are electrochemical components of the battery cell 1 recorded. In particular, an anode and a cathode are received therein, which are separated from one another by a separator. The electrochemical components can preferably be present wound with one another and form a so-called jelly roll.

The battery cell also includes 1 at least one voltage tap 4th . The at least one voltage tap 4th is on a side surface of the prismatic housing 2 arranged.

According to 1 this side surface is the top surface 3 .

From the 1 it can be seen that there is at least one voltage tap 4th in a parallel to a largest side surface 5 of the housing 2 , which in the 1 can not be seen, arranged longitudinal direction 6th rejuvenates. Such a taper results from reference numerals 9 Clarified areas of the lid surface 3 which are not due to the at least one voltage tap 4th are covered and therefore good attack opportunities for bracing elements described later 11 Offer.

Through these areas 9 becomes a possibility for a fixation of the battery cell 1 in a height direction of the battery cell 1 created. This height direction is perpendicular to the plane of the drawing 1 .

According to one in the 1 The embodiment shown are each tapered as a bevel 90 educated. Between the bevel 90 and the longitudinal direction 6th is an angle 91 educated. This angle preferably has a value between 30 ° and 60 ° and in particular a value of 45 °.

From the 1 it can be seen that the taper is immediately adjacent to a smallest side surface 51 of the prismatic housing 2 arranged end 43 of the at least one voltage tap 4th is arranged. In particular, this should also be understood to mean that the at least one voltage tap is located 4th towards the end 43 tapered or that the taper immediately adjacent to the end 43 can be arranged.

The at least one voltage tap 4th is symmetrical to a parallel to a largest side surface 5 arranged level 7th educated. This level 7th is in 1 shown in the relevant area. It should be noted that the level 7th is perpendicular to the plane of the drawing and is therefore shown as a line. In other words, it means that the normal vector of the plane 7th perpendicular to the largest side surface 5 of the housing 2 of the battery module 1 is arranged.

According to the in 1 The embodiment shown has the battery module 1 a total of two voltage taps 4th on. In particular, the battery module 1 a first voltage tap 41 on, which as a positive voltage tap 410 is formed, and a second voltage tap 42 , which as a negative voltage tap 420 is trained on.

In addition, there is between the two voltage taps 41 , 42 a vent 8th arranged.

At this point it should be noted that the housing 2 the battery cell 1 can be designed as a further voltage tap and the voltage tap 4th is electrically isolated from the housing.

2 shows a battery module in a perspective view 10 according to one embodiment of the invention. The battery module 10 comprises a plurality of battery cells 1 according to 1 . The voltage taps 4th of the battery cells 1 can do this through in the 2 Cell connectors that cannot be recognized are connected to one another in an electrically conductive manner in parallel and / or in series.

In particular, shows the 2 that the battery cells 1 with their respective largest side surfaces 5 are arranged immediately adjacent to one another. Furthermore, there are also the smallest side surfaces 51 to recognize what a common outer surface 13th of the battery module 10 form.

The battery module also includes 1 a bracing element 11 which can intervene in the tapers. In particular, covers the bracing element 11 thereby an edge, which between a battery module top 12th through the respective cover surfaces 3 of the battery cells 2 is formed together, and the outer surface 13th by the respective smallest side surfaces 51 of the battery cells 2 is trained together.

The bracing element 11 has recesses 14th on, which in each case correspond to one of the at least one voltage taps 4th are formed that the area in which the tapering is formed into the recess 14th intervenes. In other words, it forms the recesses 14th the taper is negative.

Claims (10)

Battery cell, in particular lithium-ion battery cell (100), comprising a prismatic housing (2) in which electrochemical components of the battery cell (1) are accommodated, and at least one voltage tap (4) which is located on a side surface of the prismatic housing (2) is arranged, characterized in that the at least one voltage tap (4) tapers in a longitudinal direction (6) arranged parallel to a largest side surface (5) of the housing (2). Battery cell after the previous one Claim 1 , characterized in that the at least one voltage tap (4) is designed symmetrically to a plane (7) arranged parallel to a largest side surface (5). Battery cell according to one of the previous ones Claims 1 to 2 , characterized in that the at least one voltage tap (4) is arranged on a cover surface (3) of the housing (2). Battery cell according to one of the previous ones Claims 1 to 3 , characterized in that the battery module (1) has two voltage taps (4), a first voltage tap (41) being designed as a positive voltage tap (410) and a second voltage tap (42) being designed as a negative voltage tap (420). Battery cell after the previous one Claim 4 , characterized in that a degassing opening (8) is arranged between the two voltage taps (4). Battery cell according to one of the previous ones Claims 1 to 3 , characterized in that the housing (2) of the battery cell (1) is designed as a further voltage tap and the at least one voltage tap (4) is electrically isolated from the housing (2). Battery cell according to one of the previous ones Claims 1 to 6th , characterized in that the taper is designed as a bevel (90), an angle (91) of 30 degrees to 60 degrees, in particular 45 degrees, being formed between the bevel (90) and the longitudinal direction (6). Battery cell according to one of the previous ones Claims 1 to 7th , characterized in that the taper is arranged on an end (43) of the voltage tap (4) arranged directly adjacent to a smallest side surface (51) of the housing (2). A battery module comprising battery cells (1) according to one of the Claims 1 to 8th , characterized in that the battery cells (1) are connected in an electrically conductive manner by cell connectors connected in an electrically conductive manner to the at least one voltage taps (4) of the respective battery cells (2). Battery module according to one of the preceding claims, characterized in that the battery module (10) comprises a bracing element (11) which engages in the taper.

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