The present invention relates to a pouch cell having a positive contact region and a negative contact region, by means of which contact regions electrical contact can be made with the pouch cell and said pouch cell can be charged and discharged in this way. The pouch cell is of planar design and has a cell top side as well as a cell bottom side which is situated opposite the cell top side. The pouch cell preferably has a rechargeable lithium-ion battery.
Pouch cells of the kind mentioned at the outset are known in principle from the prior art.
It is an object of the present invention to provide a pouch cell which fosters simple and reliable contact-connection.
The present invention provides that the positive contact region is located exclusively on the cell top side and the negative contact region is located exclusively on the cell bottom side, or vice versa. The pouch cell preferably has an encircling cell edge strip or edge region which is free of electrical contact lugs or free of any kind of electrical contact-making elements.
The invention includes the finding that pouch cells of the prior art are difficult to handle in mass production processes since their contact lugs are typically situated close to one another and the pouch cells can be short-circuited if they are not handled carefully. Furthermore, it was found that, on account of their construction, pouch cells previously could not be resistance-welded for the purpose of making electrical contact. In mass production processes of rechargeable battery packs or stacks comprising pouch cells, this leads to a high level of technical and financial expenditure for automated installations which carry out electrical contact-connection of the individual pouch cells. The stack can also be called a pack, batch or pile.
In contrast to this, a pouch cell is created, the positive contact region of which pouch cell is located exclusively on the cell top side and the negative contact region of which pouch cell is located exclusively on the cell bottom side, or vice versa. As a result, the pouch cell according to the invention can advantageously be safely handled in a mass production process, that is to say any short circuits between pouch cells of a stack can be avoided.
On the basis of the pouch cell which is provided according to the invention, a stack comprising a plurality of pouch cells can be provided. A stack of this kind may be part of a rechargeable battery pack for supplying power to an electrical handheld power tool. Accordingly, the invention also provides for the use of a stack comprising a plurality of pouch cells according to the invention for supplying power to an electrical handheld power tool.
In this respect, the invention includes the finding that rechargeable battery packs for electrical handheld power tools are typically manufactured exclusively from cylindrical lithium-ion cells. However, as the power requirement of handheld power tools increases, the discharge currents required increase, as a result of which the battery packs, on account of higher power losses, reach the maximum permissible level before discharge and have to be switched off for temperature-related reasons. The residual energy remaining in the battery pack is not available to users—or is available only after a cooling-down phase.
A stack having a plurality of pouch cells which are contact-connected according to the invention can reduce temperature-related switching off of battery packs for electrical handheld power tools. This is because pouch cells can now be used instead of conventional cylindrical lithium-ion cells. It was found that, on account of their internal electrical design, pouch cells have a lower electrical resistance and therefore exhibit less power loss given comparatively high discharge capacities, as a result of which battery packs comprising pouch cells of this kind can be operated either for longer or at higher powers.
In a particularly preferred refinement, the positive contact region is designed as an electrical/mechanical positive connection element and/or the negative contact region is designed as an electrical/mechanical negative connection element. The positive connection element and/or the negative connection element can each be of flat design and designed for contact-connection by means of pressing or welding. A stack comprising a plurality of pouch cells can accordingly be provided by way of the contact regions, which are preferably of planar design, of adjacent pouch cells bearing against one another. By pressing the individual pouch cells in a rechargeable battery pack housing onto one another, contact-connection of the individual cells can be ensured. Pressing the individual cells onto one another in this way preferably produces a reversible connection between the respective contact regions of the layered pouch cells. In an alternative exemplary embodiment, the layered pouch cells can also be connected to one another in an irreversible manner. This can be done, for example, by way of a conductive coating, which then forms a respective contact region, being applied before the pouch cells are pressed onto one another, wherein the conductive coating has an adhesive or sticking effect. In a further refinement, a connection element can be formed, for example, by a weldable and conductive plastic, wherein welding can be performed, for example, by means of thermal or ultrasonic welding.
In a further preferred refinement, the positive connection element and/or the negative connection element are each designed as a plug-in connection element. The positive connection element and the negative connection element are preferably configured as complementary plug-in connection elements. Therefore, for example, the positive connection element can be designed as a male plug-in connection element and the negative connection element can be designed as a female plug-in connection element, or vice versa. In a particularly preferred refinement, the positive connection element, which is designed as a plug-in connection element, and the negative connection element, which is designed as a plug-in connection element, form a plug-in connection in the sense of a trapezoidal slide guide or else, for example, in the sense of a trapezoidal dovetail guide. It has been found to be advantageous when a plug-in direction of the plug-in connection elements is oriented parallel in relation to the cell top side and in relation to the cell bottom side. A plug-in connection between the positive connection element and the negative connection element can be of reversible and also irreversible design. For an irreversible configuration, one plug-in connection element or both plug-in connection elements can have, for example, barbs.
In a further preferred refinement, the positive connection element and/or the negative connection element are each designed as screw-connection elements. Preferably, screw-connection elements of this kind are preferably complementary. Individual pouch cells of a stack can be screwed to one another or into one another by means of the screw-connection elements. A contact-connection of this kind can also be of reversible or irreversible configuration.
It has been found to be advantageous when the screw-connection element or elements are electrically conductive only in sections in such a way that electrical contact is made only after mechanical contact is made or at the end of a mechanical contact-connection operation. In other words, provision can be made for an electrical contact-connection to be made, by cells which are to be screwed into one another or to one another, only when the cells are completely screwed to one another or into one another. This has the advantage that short circuits due to incorrect contact-connections in a mass production process can, in principle, be precluded or else at least considerably reduced.
It has been found to be advantageous when the pouch cell is electrically insulated outside the positive contact region and/or outside the negative contact region. In a particularly preferred refinement, the cell top side and/or the cell bottom side are of substantially flat design. A cell thickness is preferably lower than a cell width and/or a cell depth.
It has been found to be advantageous when the connection elements each extend perpendicularly in relation to the flat cell top side and/or perpendicularly in relation to the flat cell bottom side. The connection elements can protrude beyond the flat cell top side and/or the flat cell bottom side. In a particularly preferred refinement, the positive contact region and the negative contact region are routed out of the pouch cell by means of loops or electrical lines which run within the pouch cell.
In all of the exemplary embodiments described here, the positive contact region and/or the negative contact region can be of metal design for example. The positive contact region and/or the negative contact region can consist of aluminum or contain aluminum. The negative contact region is preferably designed as a metal negative pole. A metal negative pole can, for example, consist of nickel or contain nickel. As an alternative or in addition, a configuration of this kind is possible for the positive contact region.
The invention also provides a stack comprising a plurality of pouch cells of the kind described above, wherein the pouch cells are electrically contact-connected to one another by means of their respective connection elements. A contact-connection of this kind is preferably a series circuit, wherein a positive contact region of a first pouch cell is electrically contact-connected to a negative contact region of an adjacent pouch cell. A stack of this kind can be developed in a corresponding manner by the features which are described above with respect to the pouch cell.
The invention likewise relates to the use of a stack of the kind described above for supplying power to an electrical handheld power tool, wherein the stack is preferably arranged in a rechargeable battery pack of the electrical handheld power tool.
Further advantages will become apparent from the following description of the figures. The figures illustrate various exemplary embodiments of the present invention. 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 further useful combinations.
In the figures, identical and similar components are denoted by the same reference signs. In the figures:
A pouch cell 100S of the prior art is illustrated in
As can be gathered from
The pouch cell 100S shown in
In contrast to the pouch cell 100S of the prior art,
The pouch cell 100 of
According to the invention, provision is made for the positive contact region 10 to be located exclusively on the cell top side 110 and the negative contact region 20 to be located exclusively on the cell bottom side 120.
In the first preferred exemplary embodiment of
In the exemplary embodiment of
A stack 500, which has a plurality of pressed pouch cells 100, is illustrated in
The two
It can also be clearly seen in
The topmost pouch cell 100 in the stack additionally has a positive stack connection 15. A negative stack connection 25 is provided on the lowermost pouch cell 100 in the stack. The stack 500 is electrically incorporated, for example, into a rechargeable battery pack, not illustrated more precisely here, for an electrical handheld power tool by means of the positive stack connection 15 and the negative stack connection 25. The differences between the exemplary embodiments of
In contrast,
The housing 510 of
In
It can once again be clearly seen in
The two pouch cells 100, 100′ of
As can be clearly gathered from
As can likewise be seen in figure, a thickness D of the pouch cell 100 is lower than the width B and the length L of the pouch cell. In the exemplary embodiment illustrated at present, the thickness D is lower than one fifth of the width B and of the length L.
The positive screw-connection element 17 and the negative screw-connection element 27 are complementary in relation to one another. In other words, the positive screw-connection element 17 in the form of a screw can be screwed into the negative screw-connection element 27 (in the form of a nut). It goes without saying that this applies to different cells of the same construction since
It can likewise be clearly seen in
Finally,
The positive contact region 10 is designed as a male positive screw-connection element 17 and the negative contact region 20 is designed as a female negative screw-connection element 27.
In contrast to the exemplary embodiment described with respect to
In contrast to the exemplary embodiment described with respect to
In a particularly preferred refinement and shown schematically in
Number | Date | Country | Kind |
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18181724 | Jul 2018 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2019/066987 | 6/26/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2020/007679 | 1/9/2020 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
10811744 | Sauerteig et al. | Oct 2020 | B2 |
20170018746 | Kritzer et al. | Jan 2017 | A1 |
20180026294 | Sauerteig et al. | Jan 2018 | A1 |
Number | Date | Country |
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205211862 | May 2016 | CN |
106384795 | Feb 2017 | CN |
107634169 | Jan 2018 | CN |
102015000735 | Jul 2016 | DE |
20100128927 | Dec 2010 | KR |
WO2007028803 | Mar 2007 | WO |
WO 2007028803 | Mar 2007 | WO |
Entry |
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International Search Report of PCT/EP2019/066987, dated Sep. 2, 2019. |
Number | Date | Country | |
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20210210825 A1 | Jul 2021 | US |