DE202022107078U1 - Support element and a battery cell with this support element - Google Patents

Abstract

Supporting element (1) for a battery cell (2) with at least one terminal projection element (4) which is fixed to a terminal base element (3) and spaced apart from the battery cell (2) by a gap (5), having:
a pressure receiving body (6) formed in a plate shape and having protruding guide rails (7) and/or a grip portion (10); whereby
the pressure-receiving body (6) is configured to be insertable into the gap under the at least one terminal projection member (4);
the guide rails (7) are configured to allow guided insertion of the pressure-receiving body (6);
the handle portion (10) is configured to form a stop upon insertion; and
the pressure-receiving body (6) is configured in such a way that the pressure-receiving body (6) is fixed under the connecting projection element (4) in a non-positive and/or positive manner after being inserted under the connecting projection element (4).

Description

BACKGROUND

The present disclosure relates to a battery cell support member having at least one terminal projection member fixed to a terminal base member and spaced apart from the battery cell by a gap.

Battery packs often consist of several individual battery cells (e.g. prismatic LiFePo4 battery cells). In order to connect the individual battery cells electrically, battery connection elements are provided, which are fixed to corresponding connections of the battery cells. These battery cell connections have a thread in order to fix the battery connection elements by means of a screw connection. This allows the configuration of the electrical connection of the battery cells to be changed and adjusted.

In particular, but not exclusively, terminals of battery cells that provide a screw connection with at least two screws have a gap. Such a terminal has a terminal base member that is directly connected to the battery cell and a terminal projection member that is flanged or attached to the terminal base member and is spaced from the battery cell by a gap. In the case of battery cell connections that have a gap, the problem arises that these can bend or even break off during transport or in the event of improper use, such as pressure or impact.

It is therefore an object of the present disclosure to provide a support member which can prevent the terminals from being bent or broken off and can be easily attached.

SHORT VERSION

This object is achieved by the following battery cell support member having at least one terminal projection member fixed to a terminal base member and spaced apart from the battery cell by a gap.

The support member has a pressure receiving body formed in a disk shape with protruding guide rails. The pressure-receiving body is configured to be insertable into the gap under the at least one terminal projection member. The guide rails are configured to allow guided insertion of the pressure-receiving body.

Furthermore, the pressure-receiving body has a configuration with which, after being inserted under the terminal projection element, it is fixed under the terminal projection element in a force-fitting manner and/or in a form-fitting manner.

character list

• 1 eine perspektivische Ansicht eines Abstützelements gemäß der ersten Ausführungsform,
• 2A, 2B und 2C einen Prozess des Einsetzens des Abstützelements gemäß der ersten Ausführungsform,
• 3 eine Draufsicht des Abstützelements gemäß der ersten Ausführungsform,
• 4 eine perspektivische Ansicht eines Abstützelements gemäß der zweiten Ausführungsform,
• 5A, 5B und 5C einen Prozess des Einsetzens des Abstützelements gemäß der ersten Ausführungsform,
• 6 eine Draufsicht eines Abstützelements gemäß einer Modifikation, das unter einem Anschluss eingesetzt und mittels Formschluss fixiert ist.

It shows:

• 1 a perspective view of a support element according to the first embodiment,
• 2A , 2 B and 2C a process of inserting the support member according to the first embodiment,
• 3 a plan view of the support element according to the first embodiment,
• 4 a perspective view of a support element according to the second embodiment,
• 5A , 5B and 5C a process of inserting the support member according to the first embodiment,
• 6 12 is a plan view of a support member according to a modification, which is inserted under a terminal and fixed by means of a form fit.

DESCRIPTION OF THE EMBODIMENTS

(First embodiment)

In the following, the support element according to the first embodiment is based on the 1 until 3 described.

1 shows a perspective view of the support element 1. The support element 1 has a pressure-receiving body 6, guide rails 7 and a handle section 10. FIG. The pressure absorbing body 6 is designed in the form of a plate, the plate shape being understood as a flat geometric object with any basic shape and it can also be a flat disc, for example. The guide rails 7 protrude from the pressure-receiving body 6 , and the grip portion 10 is formed on a rear side of the pressure-receiving body 6 .

The basic shape of the pressure-receiving body 6 according to the first embodiment is a C-shape with the ends of the C-shape approaching at a front side in the right-left direction as shown in FIG 3 shown. A level of pressure absorption Body 6 corresponds to the gap 5, with the height of the pressure-receiving body 6 having a clearance with respect to the gap such that the pressure-receiving body 6 can be inserted into the gap. One guide rail 7 is provided on each of right and left sides, each guide rail 7 extending along a front-rear direction. The grip portion 10 forms a ridge on the rear side of the pressure-receiving body 6 and extends along a right-left direction. The directions are in the 1 defined, the handle portion in all other figures, the rear side and the right-left direction according to the 1 Are defined.

The process of inserting the support element 1 is in 2 described. 2A FIG. 12 shows a battery cell 2, a terminal base member 3, a terminal projection member 4, a gap 5, fasteners 9, and the support member 1 in a state where the support member 1 is not fixed under the terminal projection member 4. FIG.

2 B FIG. 12 shows a state in which the support member 1 is partially slid under the terminal projection member 4. FIG. At this time, the guide rails 7 guide along the side surfaces of the terminal projection member 4 such that the support member 1 has no freedom of movement in the right-left direction. In addition, the terminal projection member 4 has a longer extension in the right-left direction than the distance between the two front ends of the C-shape of the pressure-receiving body 6. Therefore, the pressure-receiving body 6 is slightly bent up (spring member), generating an inward force.

2C finally shows the fully inserted state of the support element 1. The handle section 10 forms a stop of the insert such that the support element 1 cannot be pushed in further than necessary. The inwardly directed force due to the bending up of the pressure-receiving body 6 fixes the support element 1 in a non-positive manner under the connection projection element 4.

According to the first embodiment, the support member 1 can be attached for the transportation of the battery cell 2 . This prevents the terminal projection member 4 from being bent or broken off during transportation because the pressure-receiving body 6 supports the terminal projection member 4 and receives the applied force/pressure. In addition, the guide rails 7 and the handle portion 10 allow the support member 1 to be fixed in the correct position under the terminal projection member.

The support element 1 can then be removed when battery connection elements are fixed to the terminals by fastening means 9 . Thus, the fasteners 9 screwed into the terminal projection member (screws may protrude at a bottom of the terminal projection member) do not abut against the pressure-receiving body 6, which in turn could cause deflection. The removal of the supporting element 1 is easily possible through the handle section 10 since a user can intervene there and pull out the supporting element without any problems. Furthermore, a user can easily press out the supporting element 1 by reaching in and bending up at the ends of the C-shape.

Furthermore, the front edge of the support element 1 can have a chamfer. This prevents wedging when inserting the support element 1 and facilitates the insertion of the support element 1 .

In addition, with the above configuration, no tool is required to attach and detach the support member, thus enabling easy handling.

(Second embodiment)

In the following, the second embodiment is based on the 4 and 5 described. The support element 1 according to the second embodiment differs from the support element 1 according to the first embodiment in the shape of the pressure receiving body 6.

4 shows a perspective view of the supporting element 1 according to the second embodiment. The pressure-receiving body 6 has a C-shape on its outer periphery and an M-shape on its inner periphery by a recess 8 . The recess 8 is formed such that spaces are formed under the terminal projection member 4 at positions where the fasteners 9 can protrude from under the terminal projection member 4 . Thus, when the support element 1 is in an inserted state, the fastening means do not hit the pressure-receiving body 6 .

The 5A , 5B and 5C 12 show the process of inserting the support member 1 according to the second embodiment. The configuration of the support member 1 according to the second embodiment achieves the same effects as the configuration of the support member 1 according to the first embodiment. In addition, according to the second embodiment, the support element 1 can also be used when attaching the battery connection element of the fastening means 9 remain under the terminal projection element 4. Therefore, the support member 1 is fixed under the terminal projection member 4 not only during transportation but also during further use of the battery cell 2 . This prevents the connections from bending or breaking off during further use.

(Further Modifications)

The pressure-receiving body 6 need not have a C-shape and may have any shape that allows the pressure-receiving body 6 to be inserted under the terminal projection member. In particular, the inner circumference of the support element 1 can be designed to be complementary to the terminal base element 3 so that the support element 1 fits snugly against the terminal base element 3 .

Furthermore, the recess 8 can be designed in such a way that only the area of the pressure-receiving body 6 is left out, in which the fastening means 9 penetrate the connecting projection element 9 . This can be realized, for example, via two individual holes. These holes can also contain a thread. In the case of a thread, the support element 1 is additionally fixed. Furthermore, the recess 8 can only represent a depression that does not completely penetrate the pressure receiving body 6 .

The support member 1 may be formed such that it is fitted under not only a single terminal boss member but a plurality of terminal boss members.

Furthermore, the pressure-receiving body 6 can be formed in such a way that it encloses the terminal base element 3 . This means that the pressure receiving body 6 can also be fixed in a form-fitting manner on the connection base element 3 (see FIG 6 ). Furthermore, a combination of non-positive and positive locking can be provided.

The support element 1 according to the first and second embodiment is produced using a 3D printing process. In addition, however, other manufacturing processes, such as an injection molding process, are also conceivable, with the 3D printing process having advantages with regard to the specific adaptation of the support elements 1 . In particular, a support structure is formed inside the support element, so that a saving in material is achieved despite high stability.

Reference List

1

support element

2

battery cell

3

connector base element

4

terminal projection element

5

gap

6

pressure absorbing body

7

guide rail

8th

recess

9

fasteners

10

handle section

Claims (7)

Supporting element (1) for a battery cell (2) with at least one terminal projection element (4) which is fixed to a terminal base element (3) and spaced apart from the battery cell (2) by a gap (5), having: a pressure receiving body (6) formed in a plate shape and having protruding guide rails (7) and/or a grip portion (10); whereby the pressure-receiving body (6) is configured to be insertable into the gap under the at least one terminal projection member (4); the guide rails (7) are configured to allow guided insertion of the pressure-receiving body (6); the handle portion (10) is configured to form a stop upon insertion; and the pressure-receiving body (6) is configured in such a way that the pressure-receiving body (6) is fixed under the connecting projection element (4) in a non-positive and/or positive manner after being inserted under the connecting projection element (4). Supporting element (1) according to protection claim 1 , wherein the pressure receiving body (6) is C-shaped. Supporting element (1) according to protection claim 1 , wherein the pressure receiving body (6) is formed complementary to the terminal base member (3). Supporting element (1) according to one of Claims for protection 1 until 3 wherein a thickness of the pressure receiving body (6) is configured to fill the gap (5) between the battery cell (2) and the terminal projection member (4). Supporting element (1) according to one of Claims for protection 1 until 4 , wherein the pressure-receiving body (6) is configured such that it has at least one in a central area Recess (8), and the recess (8) is configured such that at least one fastener (9), which is introduced into the connecting projection element (4), is partially accommodated in the at least one recess. Supporting element (1) according to one of Claims for protection 1 until 5 , wherein the support element (1) is formed inside by means of a support structure. Battery cell (2) with at least one terminal projection element (4) which is fixed to a terminal base element (3) and spaced apart from the battery cell (2) by a gap (5), comprising: a support element (1) according to one of Claims 1 until 6 .

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