DE202018001516U1 - Battery cell unit for battery modules - Google Patents

Abstract

Battery cell unit for battery modules, with a battery cell (2), a cell frame (3) into which the battery cell (2) is inserted, a cell pole (4) which is connected on the one hand to the battery cell (2) and with its battery cell remote end portion (5 ) protrudes from the battery cell (2), and a connecting part (8) to which the battery cell remote end portion (5) of the cell pole (4) is connected and by means of which the battery cell (2) with adjacent battery cells (2) of the battery module is connectable, characterized in that the battery cell remote end portion (5) of the cell pole (4) is bent in a plane perpendicular to the main plane of the battery cell (2) connection plane, that the battery cell remote end portion (5) with its lower surface at its surface facing the connecting part (8 ) is in Appendix, that below the connecting part (8) an inclined plane (13) is formed, and that between the below the connecting part (8 ) formed inclined plane (13) and the battery cell (2) or its cell frame (3) a wedge member (12) sits, whose slope is the same amount and inversely to the slope of below the connecting part (8) formed inclined plane (13).

Description

The invention relates to a battery cell unit for battery modules, comprising a battery cell, a cell frame, in which the battery cell is inserted, a cell pole, which is connected on the one hand to the battery cell and protrudes with its battery cell remote end portion of the battery cell, and a connecting part, to the the battery cell remote end portion of the cell pole is connected and by means of which the battery cell can be connected to adjacent battery cells of the battery module.

Based on the above-described prior art, the present invention seeks to provide a corresponding battery cell unit for battery modules available, their assembly and disassembly is considerably simplified with the adjoining adjacent battery cell units connecting parts and in the long term, a reliable connection connection between the connecting parts and the battery cell remote end portions of the cell poles is secured.

This object is achieved in that the battery cell remote end portion of the cell pole is bent in a plane perpendicular to the main plane of the battery cell connection level that the battery cell remote end portion with its lower surface on the surface facing him of the connecting part in Appendix, that below the connecting parts an oblique Level is formed, and that sits between the formed below the connecting part inclined plane and the battery cell or its cell frame, a wedge member whose slope is the same amount and inversely to the slope of the formed below the connecting part inclined plane. During assembly of the connecting part, which can be done by means of lateral insertion or insertion, it is ensured on the basis of the connecting part-side inclined plane and the battery cell unit-side wedge member that a height compensation takes place during the lateral insertion. When the connecting part is pushed in sideways, the approach of the connecting part into its final mounting position takes place translationally with two directional vectors. In this case, a height compensation take place, which is essential for the produced material connection between the connecting part and the cell poles. The surface of the connecting part is brought in parallel from below to the battery cell remote end portions of the cell pole. By means of a different number of connection sections having connecting parts, their combination and an adapted thereto number of battery cell units can be put together battery modules of any capacity. This is particularly important in the design of vehicle drive batteries.

According to an advantageous development of the battery cell unit according to the invention, the inclined plane formed below the connecting part is the lower surface of a receiving part, on the surface of which the connecting part is held. This makes it possible, for example, to use standardized connecting parts for the battery cell units according to the invention, it being possible to adapt the connecting parts to the respective battery module to be concretely assembled by means of the receiving part.

For fixed connection between the connecting part on the one hand and receiving part on the other hand, it is advantageous if the connecting part is latched by means of locking members fixed to the surface of the receiving part.

The battery cell of the battery cell unit according to the invention can be advantageously fixed in the cell frame of the battery cell unit, wherein the fixation can preferably be realized by the cell is glued, clamped and / or pressed into the cell frame.

The wedge member of the battery cell unit according to the invention can be conveniently mounted on the cell frame thereof.

Alternatively, it is possible to design the wedge member as an integral part of the cell frame.

To avoid mechanical stresses, e.g. due to vibrations, etc., the connection between the battery cell remote end portions of the cell poles on the one hand and the connecting part on the other hand exclude or minimize, it is advantageous if between a parallel to the main level of the battery cell from this projecting portion of the cell pole on the one hand and the right this bent away battery cell End portion of the cell pole on the other hand, a relief contour is formed.

In the following the invention will be explained in more detail by means of embodiments with reference to the drawing.

• 1 den für die Erfindung wesentlichen Abschnitt dreier erfindungsgemäßer Batteriezelleneinheiten, wobei ein mit diesen Batteriezelleneinheiten zusammen zu fügendes Verbindungsteil vor dem Zusammenfügen gezeigt ist;
• 2 eine 1 entsprechende Darstellung der Batteriezelleneinheiten während des Zusammenfügens von Verbindungsteil und Batteriezelleneinheiten;
• 3 eine den 1 und 2 entsprechende Darstellung nach dem Zusammenfügen von Batteriezelleneinheiten und Verbindungsteil;
• 4 eine 1 entsprechende Darstellung einer Vielzahl von erfindungsgemäßen Batteriezelleneinheiten, die mittels zweier Verbindungsteile miteinander verbunden werden, wobei die Verbindungsteile vor ihrem Zusammenfügen mit den Batteriezelleneinheiten gezeigt sind;
• 5 eine 4 entsprechende Darstellung, bei der eines der beiden Verbindungsteile während des Zusammenfügens und das andere vor dem Zusammenfügen mit den Batteriezelleneinheiten gezeigt ist;
• 6 eine den 4 und 5 entsprechende Darstellung, bei der ein Verbindungsteil im zusammengefügten und das andere Verbindungsteil vor dem Zusammenfügen gezeigt ist;
• 7 eine den 4 bis 6 entsprechende Darstellung, wobei ein Verbindungsteil im zusammengefügten Zustand und das andere Verbindungsteil während des Zusammenfügens gezeigt ist; und
• 8 eine den 4 bis 7 entsprechende Darstellung, wobei beide Verbindungsteile im zusammengefügten Zustand gezeigt sind.

Show it:

• 1 the section of three battery cell units according to the invention which is essential for the invention, a connection part to be joined together with these battery cell units being shown prior to assembly;
• 2 a 1 corresponding representation of the battery cell units during the assembly of connecting part and battery cell units;
• 3 a the 1 and 2 corresponding representation after the assembly of battery cell units and connecting part;
• 4 a 1 corresponding representation of a plurality of battery cell units according to the invention, which are interconnected by means of two connecting parts, wherein the connecting parts are shown prior to their assembly with the battery cell units;
• 5 a 4 corresponding illustration in which one of the two connecting parts during assembly and the other shown before joining with the battery cell units;
• 6 a the 4 and 5 corresponding representation in which a connecting part in the assembled and the other connecting part is shown prior to assembly;
• 7 a the 4 to 6 corresponding representation, wherein a connecting part in the assembled state and the other connecting part is shown during assembly; and
• 8th a the 4 to 7 corresponding representation, wherein both connecting parts are shown in the assembled state.

Each of the three in 1 shown battery cell units according to the invention 1 serves to with other similar battery cell units 1 to one of a plurality of such battery cell units 1 having assembled battery module.

To the battery cell unit 1 include a battery cell 2 , a cell frame 3 and cell poles 4 ,

The battery cell 2 the battery cell unit 1 is in the cell frame 3 the battery cell unit 1 inserted so that the battery cell 2 within the cell frame 3 is fixed. The fixation can be realized by the battery cell 2 in the cell frame 3 glued, clamped and / or pressed.

The in the 1 to 3 shown cell pole 4 each battery cell unit 1 is with its battery cell end portion to the battery cell 2 the battery cell unit 1 connected. With its battery cell remote end section 5 is the cell pole 4 from the battery cell 2 the battery cell unit 1 in front.

In the delivery state, not shown in the figures, the cell pole protrudes 4 with his plan battery cell remote end section 5 from the battery cell 2 the battery cell unit 1 in front. For mounting the battery cell unit 1 the cell pole 4 is bent by 90 degrees so that the battery cell remote end portion 5 of the cell pole 4 in a to the main plane of the battery cell 2 vertically arranged connection plane is bent. In the 1 to 8th is the cell pole 4 shown exclusively in the already bent state. Furthermore, the in the 1 to 8th shown cell pole 4 the battery cell unit 1 each with a discharge contour 6 configured between one parallel to the main plane of the battery cell 2 from this previous section 7 of the cell pole 4 and the right-angled bent battery cell remote end portion 5 is trained.

The relief contour 6 comprises curved and planar sections and serves, in the assembled state of the battery cell unit, to prevent vibrations, etc., from occurring on a cohesive connection between the cell poles 4 on the one hand and a connecting part which will be described below 8th by which adjacent battery cell units 1 are connected to each other, on the other hand to transmit.

That in the 1 to 3 shown connecting part 8th is suitable, three adjacent battery cell units 1 to connect with each other. This is the connecting part 8th at its connection sections 9 in flat contact with the lower surfaces of the bent battery-distant end sections 5 the cell poles 4 brought.

A uniform contact between the connection sections over the entire connection surfaces 9 of the connecting part 8th on the other hand and the battery cell remote end sections 5 the cell poles 4 is achieved in the case of the battery cell unit according to the invention 1 the connecting part 8th from the side, like this from the 1 to 3 shows, so between the battery cell 2 the battery cell unit 1 and the battery cell remote end portion 5 of the cell pole 4 the battery cell unit 1 pushed in that the flat contact between the connection section 9 of the connecting part 8th and the battery cell remote end portion 5 of the cell pole 4 arises.

For this purpose, in the illustrated embodiment of the battery cell unit according to the invention 1 the connecting part 8th on a receiving part 10 held, with the receiving part 10 with snap-in links 11 is provided, by means of which the connecting part 8th firmly on the surface of the receiving part 10 latched and thus can be fixed there.

In the figures, the connecting part 8th each firmly in the surface of the receiving part 10 locked state shown.

To the lateral insertion of the receiving part 10 latched connection parts 8th into the battery cell units 1 make this Einschiebevorgang readily feasible and to ensure that at the end of this Einschiebevorgangs a uniform contact between the connecting sections 9 of the connecting part 8th on the one hand and the bent battery cell remote end sections 5 the cell poles 4 on the other hand, is in the illustrated embodiment, the battery cell unit according to the invention on the cell frame 3 same a wedge member 12 arranged, in terms of its inclination of the inclination of an inclined plane 13 matches that at the bottom of the receiving part 10 is trained.

When inserting the connecting sections 9 of the connecting part 8th successively to the battery cell remote end sections 5 the cell poles 4 Approximated until they are in the fully inserted state of the connecting part 8th in flat contact with the battery cell remote end sections 5 the cell poles 4 to find oneself.

In the fully inserted state of the receiving part 10 are at the inserted end of the receiving part 10 trained engaging parts 14 engaged with the battery cell unit 1 provided shots 15 ,

By appropriate specifications for the vertical distance between the battery cell remote end sections 5 the cell poles 4 and the upper edges of the battery cell located thereunder 2 or the cell frame 3 the battery cell unit on the one hand and the vertical dimensions of the unit of receiving part 10 and connecting part 8th On the other hand, it is ensured that at the end of the insertion process, a system realized with a desired pressure between the connection sections 9 and the battery cell remote end portions 5 to ensure proper connection of the battery cell units 1 to the connecting part 8th to ensure.

The battery cell unit side wedge member 12 Can be integral with the cell frame 3 the battery cell unit 1 be trained; Alternatively, it is of course possible, the wedge member 12 as at the cell frame 3 to design an attachable separate component.

One based on the 4 to 8th shown another embodiment of a plurality of battery cell units 1 assembled battery module has nine battery cell units 1 by means of two connecting parts 8th are connected to each other, wherein in the 4 to 8th front connecting part 8th three connection sections 9 and that in the 4 to 8th rear connection part 8th six connection sections 9 having.

When disassembling the battery modules, it is possible the connecting parts 8th by a lateral extraction operation of the battery cell units 1 this being understood, of course, for all embodiments as described in the 1 to 8th are shown, applies.

The connecting part 8th is firmly locked in the mounted state under the battery cell remote end sections 5 the cell poles 4 the adjacent battery cell units 1 , By means of the receiving part side inclined plane 13 and the wedge limbs 11 is a subsequent and compensatory assembly or disassembly of the connecting part 8th allows. Due to the interaction between the said inclined plane 13 and the wedge limbs 12 becomes the connecting part 8th parallel and from the bottom of the battery cell remote end sections 5 the cell poles 4 introduced. The gradual height compensation is essential for between the battery cell remote end sections 5 the cell poles 4 on the one hand and the connection sections 9 of the connecting part 8th on the other hand produced cohesive connection. Such cohesive connections 16 are exemplary in the 4 to 8th shown. These may in particular be welds.

Claims (7)

Battery cell unit for battery modules, with a battery cell (2), a cell frame (3) into which the battery cell (2) is inserted, a cell pole (4) which is connected on the one hand to the battery cell (2) and with its battery cell remote end portion (5 ) protrudes from the battery cell (2), and a connecting part (8) to which the battery cell remote end portion (5) of the cell pole (4) is connected and by means of which the battery cell (2) with adjacent battery cells (2) of the battery module is connectable, characterized in that the battery cell remote end portion (5) of the cell pole (4) is bent in a plane perpendicular to the main plane of the battery cell (2) connection plane, that the battery cell remote end portion (5) with its lower surface at its surface facing the connecting part (8 ) is in Appendix, that below the connecting part (8) an inclined plane (13) is formed, and that between the below the connecting part ( 8) formed inclined plane (13) and the battery cell (2) or its cell frame (3) sits a wedge member (12) whose slope is the same amount and inversely to the slope of below the connecting part (8) formed inclined plane (13). Battery cell unit after Claim 1 in which the inclined plane (13) formed below the connecting part (8) is the lower surface of a receiving part (10), on the surface of which the connecting part (8) is held. Battery cell unit after Claim 2 , wherein the connecting part (8) by means of locking members (11) is firmly locked to the surface of the receiving part (10). Battery cell unit according to one of Claims 1 to 3 whose battery cell (2) in the cell frame (3) fixed, preferably glued, clamped and / or pressed. Battery cell unit according to one of Claims 1 to 4 whose wedge member (12) is mounted on the cell frame (3). Battery cell unit according to one of Claims 1 to 4 whose wedge member (12) is an integral part of the cell frame (3). Battery cell unit according to one of Claims 1 to 6 in which a relief contour (6) is formed between a parallel to the main plane of the battery cell (2) from this protruding portion (7) of the cell pole (4) on the one hand and the right battery cell remote end portion (5) of the cell pole (4).

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