The present invention relates to a battery pack for an electric hand-held power tool, the battery pack having a housing with at least two pouch cells arranged therein, a filling material being located between the pouch cells.
DE 10 2013 111 500 A1 discloses a rechargeable battery for use in electric vehicles, the rechargeable battery having a plurality of battery cells, of which each individual battery cell is cast under prestress in a resin-hardener mixture and to avoid volume work by the battery cells.
It is an object of the present invention to provide a battery pack in which damage, in particular to the housing, is avoided, or at least reduced.
The present invention provides a filling material being reversibly-elastically deformable in such a way that the filling material can yield to an increase in volume of the pouch cells.
The invention includes the finding that, in the case of battery packs of the prior art, the battery cells are cast under prestress in a resin-hardener mixture. It has been observed that the when there is an increase in volume of the battery cells—known as swelling—can lead to mechanical stresses and forces that are at least partially transferred to the housing of the battery pack. In particularly extreme cases, the battery cells themselves, but also the housing of the battery pack, can be damaged. The so-called swelling has hitherto been unavoidable and, in particular in the case of pouch cells, occurs due to the pouch-cell-specific aging of the cells.
The fact that, according to the invention, the filling material is reversibly-elastically deformable means that the filling material can thus yield to an increase in volume of the pouch cells. In other words, when there is an increase in volume of the pouch cells, this additional volume can be compensated by the filling material. This prevents mechanical stresses from occurring and the housing of the battery pack from being damaged or even broken open. A reduction in the volume of the pouch cells, for example caused by a drop in the ambient temperature, can also be compensated by the reversibly-elastic filling material. Firstly, voids can be avoided between the pouch cells and the filling material. Furthermore, the reversibly-elastically deformable filling material provides cell protection against external mechanical influences.
It has proven to be advantageous if the filling material has a material elasticity that is greater than a cell elasticity of the pouch cells.
In a particularly preferred configuration, the filling material is or comprises an elastomer. The filling material is preferably selected from the group: polyurethane, butadiene rubber, butyl rubber, ethylene-propylene-diene rubber and silicone rubber.
In a particularly preferred configuration, the filling material is provided in the form of at least one insert element which is inserted or is to be inserted between the pouch cells. If a plurality of pouch cells are provided, there is preferably one insert element each between adjacent pouch cells. The insert elements are preferably of a flat form, wherein a surface can be essentially the same size as a surface of a respective pouch cell.
In another preferred configuration, the filling material is provided in the form of a potting compound. The potting compound preferably completely encapsulates the pouch cell and/or the pouch cells. In a further preferred configuration, both the pouch cells are completely encapsulated by the potting compound and the housing is essentially completely filled with the potting compound.
It has proven to be advantageous if the filling material is located between at least one of the pouch cells and a wall of the housing. If the filling material is provided in the form of at least one insert element, this can be arranged between an outer pouch cell and the wall of the housing.
It has proven to be particularly advantageous that each of the pouch cells adjoins the filling material on both sides. The pouch cells are particularly preferably designed as lithium-polymer cells. The filling material is preferably free of a thermosetting plastic.
In a particularly preferred configuration, the no-load voltage of the battery is limited to 60 V DC.
Further advantages will become apparent from the following description of the figures. Various exemplary embodiments of the present invention are shown in the figures. The figures, the description and the claims contain numerous features in combination. A person skilled in the art will expediently also consider the features individually and combine them to produce expedient further combinations.
In the figures, identical components and components of identical type are designated by identical reference signs. In the figures:
A schematic representation of a particularly preferred exemplary embodiment of a battery pack 10 according to the invention is shown in
The battery pack 10 serves for supplying electrical power to an electric hand-held power tool 100, which is schematically represented in the left corner of
The battery pack 10 has a housing with at least two pouch cells 1, 2 arranged therein. In the exemplary embodiment shown here, six pouch cells are provided.
A filling material 8 is located between the pouch cells 1, 2. In the exemplary embodiment shown in
According to the invention, the filling material is provided as a reversibly-elastically deformable filling material, so that the filling material 8 can yield to an increase in volume of the pouch cells 1, 2 (cf.
By way of example, the filling material 8 provided in the form of insert elements 8E is provided in the form of flat butadiene rubber mats. The respective insert elements 8E are arranged both between all of the adjacent pouch cells 1, 2 and between the pouch cell 1 and a wall of the housing 9. Each of the pouch cells 1, 2 adjoins the filling material 8 on both sides. On the respective short sides (left and right in
In the exemplary embodiment shown, the pouch cells 1, 2 are designed as lithium-polymer cells and are electrically contacted with one another via the contact tabs 7; by way of example, the no-load voltage of the battery pack 10 is limited to 60 V DC.
The advantage according to the invention of the reversibly-elastically deformable filling material 8 can now be seen from
This increase in volume of the pouch cells 1, 2 has the effect that the reversibly-elastically deformable filling material 8 deforms, in the specific case is compressed. This compensates for an increase in volume of the pouch cells 1, 2 and avoids, or at least significantly reduces, a mechanical compressive stress on the housing 9 or the pouch cells 1, 2 with respect to one another.
By contrast with battery packs of the prior art, in which a volume work of the battery cells is to be avoided by thermosetting resin-hardener mixtures, it is precisely the concept of the present invention to yield specifically to this volume work of the battery cells in a compensatory manner.
In the present exemplary embodiment, the filling material 8 has a material elasticity that is greater than a cell elasticity of the pouch cells.
A second preferred exemplary embodiment of a battery pack 10 according to the invention is shown in
By contrast with the exemplary embodiment described with reference to
As can be seen in
Furthermore, filling material 8 in the form of the potting compound 8V is also present between the outer pouch cells and the wall of the housing 9.
This can be seen particularly well in
As can be seen in
It has been shown that this significantly increases the stability or long-term durability of the battery pack 10, in particular in robust use or when the cells are heated.
1 Pouch cell
2 Pouch cell
7 Contact tab
8 Filling material
8E Insert element
8V Potting compound
9 Housing
10 Battery pack
100 Hand-held power tool
Number | Date | Country | Kind |
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17207924.6 | Dec 2017 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2018/081717 | 11/19/2018 | WO | 00 |