DE102020000149A1 - bracket - Google Patents

Abstract

The invention relates to a holder (1) for a number of individual cells (2) of an electrical energy store, which are designed as round cells and electrically interconnected with one another. According to the invention, the holder (1) comprises two rows, each with a number of receiving units (A) for receiving the individual cells (2), the rows being connected to one another on a respective longitudinal side, and an integrated one extending longitudinally between the rows , wave-shaped, metallic hollow profile (3) with at least one channel through which a temperature control medium can flow.

Description

The invention relates to a holder for a number of individual cells of an electrical energy store that are designed as round cells and are electrically interconnected with one another.

From the DE 10 2007 021 309 A1 a drive battery assembly of an electric, fuel cell or hybrid vehicle is known. The drive battery assembly is provided with a plurality of battery cells, which are closed to the outside by their own cell housings, combined to form a cell pack, and at least one tube carrying cooling fluid for the removal of thermal energy from the battery cells. At least one heat-conducting lamella extending from the pipe lies flat against at least one cell housing, at least in sections.

The WO 2007/115743 A2 describes a heat exchanger module, which comprises at least two superimposed, together forming at least two parallel running heat exchanger channels, deep-drawn material strips as well as integrally molded material strips connected to them in one piece and fluidically connected to at least one heat exchanger channel each flow distribution or return manifold.

The invention is based on the object of specifying a holder for a number of individual cells of an electrical energy store that are designed as round cells and are electrically interconnected with one another.

The object is achieved according to the invention by a holder which has the features specified in claim 1.

Advantageous embodiments of the invention are the subject of the subclaims.

According to the invention, a holder for a number of individual cells of an electrical energy store designed as round cells and electrically interconnected with one another comprises two rows each with a number of receiving units for receiving the individual cells, the rows being connected to one another on a respective longitudinal side, and an integrated one extending longitudinally between The rows extending, wave-shaped, metallic hollow profile with at least one channel through which a temperature control medium can flow.

Such a holder, which is formed in particular from a plastic, on the one hand enables screw-free fastening of the individual cells and, on the other hand, the holder has the channel for temperature control, in particular for cooling, of the individual cells.

The holder can be produced comparatively inexpensively, the individual cells being able to be mounted on and removed from the holder relatively quickly.

Embodiments of the invention are explained in more detail below with reference to drawings.

• 1 schematisch eine perspektivische Ansicht eines Ausschnittes einer Halterung mit integriertem Hohlprofil und eine Anzahl von als Rundzellen ausgeführten Einzelzellen,
• 2 schematisch eine Draufsicht eines Ausschnittes der Halterung mit einer Anzahl befestigter Einzelzellen und
• 3 schematisch eine perspektivische Ansicht der Halterung mit zu dieser beabstandeten Einzelzellen.

Show:

• 1 schematically a perspective view of a section of a bracket with an integrated hollow profile and a number of individual cells designed as round cells,
• 2 schematically a top view of a section of the holder with a number of attached individual cells and
• 3 schematically a perspective view of the holder with individual cells spaced apart from it.

Corresponding parts are provided with the same reference symbols in all figures.

1 shows a perspective view of a section of a holder 1 for fastening single cells designed as round cells 2 , where in 2 a plan view of a section of the bracket 1 with attached single cells 2 and in 3 a perspective view of the bracket 1 with individual cells spaced apart from this 2 is shown.

The single cells 2 are part of an electrical energy store, especially for an electric vehicle, a hybrid vehicle or a vehicle operated with fuel cells.

To the single cells 2 without further fasteners, such as. B. to connect screws and / or adhesive to form a cell module or to fix them to one another, is the bracket described below 1 intended.

The bracket 1 is made of plastic and has, along its length, on both sides, that is in two rows, circular-arc-shaped receiving units A. on, the recording units A. one opening each O exhibit.

The recording units A. of one row of the bracket 1 are laterally offset to the receiving units A. the opposite row of the bracket 1 arranged.

The opening O is a circular arc section of the receiving unit A. and is less than 180 °. A shape corresponds to the respective receiving unit A. at least in sections with a shape of the individual cells 2 . Through the opening O becomes the respective single cell 2 into the receiving unit A. pressed so that the single cell 2 form and force fit in the receiving unit A. is held. In particular, the single cell is 2 more than half of its circumference from the recording unit A. edged, as in the 2 and 3 is shown in more detail, and the respective single cell 2 is through the opening O into the corresponding receiving unit A. clicked.

In a central area of the bracket 1 , that is between the rows, is a wave-shaped, metallic hollow profile 3 integrated, which is in 1 is shown partially exposed. Here is the hollow profile 3 like this in the holder 1 integrated that the hollow profile 3 over an area of the respective recording unit A. extends.

The hollow profile 3 is made of aluminum using an internal high pressure forming process and comprises a channel through which a temperature control medium can flow, so that the individual cells 2 im on the bracket 1 fastened state can be tempered.

For making the bracket 1 becomes the hollow profile 3 encapsulated with the plastic, wherein the plastic is molded to the receiving units A. with the openings O to train.

List of reference symbols

1

bracket

2

Single cell

3

Hollow profile

A.

Recording unit

O

opening

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

• DE 102007021309 A1 [0002]
• WO 2007/115743 A2 [0003]

Claims (3)

Holder (1) for a number of individual cells (2) of an electrical energy store, designed as round cells and electrically interconnected, characterized by - two rows each with a number of receiving units (A) for receiving the individual cells (2), the rows on a respective Long sides are connected to one another, and - an integrated, undulating, metallic hollow profile (3) extending longitudinally between the rows and having at least one channel through which a temperature control medium can flow. Bracket (1) Claim 1 , characterized in that the respective receiving unit (A) is designed in the shape of a circular arc and has an opening (O). Bracket (1) Claim 1 or 2 , characterized in that the receiving units (A) on one side are arranged laterally offset from the receiving units (A) on an opposite side.

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