EP2307174B1 - Electric machine tool - Google Patents

Description

State of the art

The present invention relates to a power tool with an interface via which the power tool can be mechanically and electrically connected to a battery pack. Such a device is out GB 2 409 831A known.

Usually, manufacturers of such electric power tools offer different battery packs with different sizes and / or rated voltages, each battery pack is associated with its size, its rated voltage and / or its power forth a particular type of power tool. Also, various types of batteries are usually offered, such as e.g. NiCd, NiMh and Li-Ion. Due to their high power density, especially Li-ion battery packs are widely used. Nominal voltage and capacity of the respectively used or available battery packs usually determine the power and running time of the power tool machines.

A disadvantage of the prior art is that power tool machines that require a large amount of energy and where, if necessary, very high power peaks may be required for a short time, such as large angle grinders or chainsaws, are not operated efficiently with currently available battery packs. Furthermore, Li-Ion battery packs have specific transport safety and handling rules when a certain capacity is exceeded. This adversely affects the economics of such large Li-ion battery packs.

Disclosure of the invention

An object of the invention is therefore to provide a new power tool with off-grid power supply, in which an operation with high power requirements with high power peaks and / or extended runtime is made possible with currently available battery packs efficiently.

This problem is solved by a power tool according to claim 1, wherein a coupling device according to claim 11 is provided, which is mechanically and electrically connectable via the interface with the power tool.

The invention thus makes it possible to provide two or more battery packs for operating a single power tool, so that their running time can be extended and / or their power can be increased. In this case, the coupling device allows application-specific equipment of the power tool with one or more battery packs. Thus, even power tool machines that are not originally designed by the manufacturer for operation with more than one battery pack can be operated with two or more battery packs. Also, power tool machines intended for operation with a high performance battery pack may now alternatively be used, e.g. be operated with two or more less powerful battery packs of the same family.

The term electric power tool is not limited to hand-held power tools, but also includes, for example, lawnmowers or benchtop systems, such as some large stand saws.

The coupling device preferably has a coupling interface which can be mechanically and electrically connected to the interface of the power tool. The first and second battery pack preferably each have a connection interface, via which the first and second battery pack optionally with the first and second battery interface of the coupling device or the Interface of the power tool can be connected. Preferably, the first and second battery pack identical sizes, rated voltages and / or capacities.

The battery interfaces provided on the coupling device thus preferably correspond to the interface provided on the electric machine tool, so that during operation with only one of the first or second battery packs, this interface can also be connected directly to the power tool. The power tool according to the invention is therefore also operable without the coupling device.

According to one embodiment, the first and second battery pack have different sizes, rated voltages and / or capacities.

Thus, the power tool via the coupling device can be mechanically and electrically connected to battery packs that are not originally intended for operation of the power tool, but their use can cause an increase in performance and / or runtime extension during operation of the power tool.

In particular, the coupling device also has at least one control device which makes it possible to selectively control the battery element coupled via the coupling device in order, for example, to use it one after the other, to operate simultaneously or even to discharge it uniformly.

The coupling device can thus be designed preferably for parallel connection of the first and second battery pack.

Thus, the term of the power tool can be extended. Furthermore, a parallel discharge of a lower load of each battery pack and thus a lower self-heating can be achieved, so that the life of the battery packs can be increased. In addition, the electric machine tool can be provided by parallel discharge and a higher current available than a single battery pack according to specifications could.

Alternatively, the coupling device is designed for series connection of the first and second battery pack.

Thus, the power tool can be operated with a larger electrical voltage.

In this way, it is advantageously possible to keep the energy content of a single battery below a danger threshold, but at the same time to operate a device which has a much higher energy consumption.

According to one embodiment, the coupling device has a switching device. This is designed to selectively electrically connect the power tool in operation with the first or the second battery pack. The switching device is preferably a manually operable switch.

Thus, during operation of the electric machine tool, depending on the state of charge of the first or second battery pack, a switching between these two takes place, in order thus to extend the running time of the power tool.

The problem mentioned at the outset is also solved by a coupling device for a power tool. The power tool has an interface via which the power tool can be mechanically and electrically connected to a battery pack. The coupling device can be mechanically and electrically connected to the power tool via the interface and has at least one first battery interface for connection to a first battery pack and a second battery interface for connection to a second battery pack.

Brief description of the drawings

The invention is explained in more detail in the following description with reference to an embodiment shown in the drawings.

• Fig. 1 eine perspektivische Darstellung einer Elektrowerkzeugmaschine mit einer Kopplungsvorrichtung gemäß der Erfindung.

It shows:

• Fig. 1 a perspective view of a power tool with a coupling device according to the invention.

Description of the embodiments

Fig. 1 shows a power tool 10 with a housing 12 to which a handle 16 and an interface 14 are provided. The electric machine tool 10 can be mechanically and electrically connected to a battery pack 20 for mains-independent power supply via the interface 14. In Fig. 1 the power tool 10 is exemplified as a cordless drill. It should be noted, however, that the present invention is not limited to cordless drill, but rather can be applied to different cordless power tools, such as a hammer drill, an angle grinder, or larger, especially not hand-held power tools, such as a lawnmower etc.

The battery pack 20 has a connection interface 22 with guide or latching elements 28, 29 for guiding or latching of the battery pack 20 in the interface 14 of the electric machine tool 10, the corresponding guide rails or counter-latching elements 18, 19, with the guide or Locking elements 28, 29 cooperate to create a mechanical connection between the power tool 10 and the battery pack 20. To establish an electrical connection between the battery pack 20 and the electric machine tool 10 20 contact elements 27 are provided on the connection interface 22 of the battery pack, which corresponding connection contacts 17, which in Fig. 1 located at the bottom of the interface 14 and therefore are shown only dashed, contact.

Before the electrical machine tool 10 is put into operation, the battery pack 20 is pushed into the housing 12 in the direction of an arrow 25 and latched there, wherein an electrical connection between the connection contacts 17 of the interface 14 and the contact elements 27 of the connection interface 22 is automatically established. The locking can be achieved for removing the battery pack 20, for example by pressing a release button 11.

The power tool 10 may then be used in a known manner. It should be noted that structure and functionality of the power tool 10, the interface 14, the battery pack 20 and the connection interface 22 sufficiently well known in the art and therefore will not be further described.

According to one embodiment of the invention, a coupling device 30 is provided which can be mechanically and electrically connected to the power tool 10 instead of the battery pack 20 via the interface 14. For this purpose, the coupling device 30 has a coupling interface 32, which is at least compatible and preferably substantially identical in construction to the connection interface 22 and has guide or latching elements 38, 39 and contact elements 37, so that a further description of the coupling interface 32 can be dispensed with. Accordingly, the coupling device 30 for mechanical and electrical connection with the power tool 10 can be analogously as described above with respect to the battery pack 20 in the direction of an arrow 35 inserted into the housing 12 and locked there.

The coupling device 30 is designed in the manner of a mechanical adapter and has at least one first battery interface 40 for connection to a first battery pack 60 and a second battery interface 50 for connection to a second battery pack 70. However, the invention is not limited to two battery interfaces. Rather, adapters with three or more battery interfaces can be realized, e.g. depending on the housing size of an associated power tool. For example, an adapter for a drill driver can have two battery interfaces, while an adapter for a lawnmower has four battery interfaces.

According to one embodiment of the invention, the coupling device 30 is designed for the parallel connection of the battery packs 60, 70. Thus, the power tool 10 may sequentially use the battery packs 60, 70 in one mode, thereby extending the life of the machine 10. In a further mode of operation, by simultaneously using both battery packs 60, 70, a significantly higher power at peak loads can be made possible. By simultaneously discharging both battery packs 60, 70, the continuous power of the power tool 10 can be increased, so that With the coupling device 30, a network-independent power supply can be achieved even with power tools that can not be operated with currently available battery packs meaningful, eg large angle grinders or chainsaws.

According to a further embodiment of the invention, the coupling device 30 is designed for series connection of the battery packs 60, 70. Thus, the electric machine tool 10 can be operated with a larger electrical voltage.

Depending on the embodiment of the coupling device 30, this not only allows simultaneous use of the battery packs 60, 70 by the power tool 10, but also a simultaneous or sequential charging of the battery packs 60, 70 at a suitable loader interface. This simplifies the charging process, in particular with a plurality of battery packs.

The battery interfaces 40, 50 are preferably designed substantially identical to the interface 14. For example, the battery interface has 40 guide rails or counter-locking elements 48, 49 and connection contacts 47. Therefore, can be dispensed with a further description of the battery interfaces 40, 50 here.

According to one embodiment of the invention, the battery packs 60, 70 identical sizes, rated voltages and / or capacities. Alternatively, the battery packs 60, 70 different sizes, rated voltages and / or capacities.

The battery packs 60, 70 have connection interfaces 62, 72 which, in accordance with one embodiment of the invention, are designed essentially identical to the connection point 22 of the battery pack 20. For example, the connection interface 72 of the battery pack 70 has guide or latching elements 78, 79 and contact elements 77. Therefore, a further description of the connection interfaces 62, 72 can be dispensed with here. Thus, the battery packs 60, 70 can be selectively connected to one of the battery interfaces 40, 50 or to the interface 14 of the power tool 10. For mechanical and electrical connection with the battery interfaces 40, 50, the battery packs 60 and 70 are analogous as above with respect to the battery pack 20 described inserted in the direction of arrows 65 and 75 in the coupling device 30 and locked there.
It should be noted that in relation to Fig. 1 an embodiment is described in which the connection interfaces 62, 72 are substantially identical in construction to each other and to the connection point 22 of the battery pack 20 are executed. However, it is also possible to carry out the connection interfaces 62, 72 differently, in order thus to allow, for example, the use of battery packs of different manufacturers on the power tool 10.

How out Fig. 1 As can be seen, the coupling device 30 may comprise a switching device 90. This is designed to selectively electrically connect the power tool 10 in operation with one of the battery packs 60, 70. The switching device 90 can be realized by a suitable control device of the power tool 10. In Fig. 1 By way of example, a manually operable switch 80, for example a toggle switch, for implementing the switching device 90 is shown.

Multiple modifications and variations of the power tool 10 and the coupling device 30 are possible within the scope of the present invention. For example, instead of the coupling device 30, a plurality of interfaces for receiving a plurality of battery packs may be provided on the housing 12 of the power tool 10. Furthermore, one of the battery interfaces 40, 50 on the coupling device 30 may be a passive interface, i. an interface without contact elements, which only serves to accommodate a Ersatzakkupacks.

Claims (11)

1. Electric machine tool with an interface (14) via which the electric machine tool can be mechanically and electrically connected to a battery pack (20), characterized in that a coupling device (30) is provided, which can be mechanically and electrically connected to the electric machine tool via the interface (14), wherein the coupling device (30) is designed in the manner of a mechanical adapter and has at least one first battery interface (40) for connection to a first battery pack (60) and at least one second battery interface (50) for connection to a second battery pack (70).
2. Electric machine tool according to Claim 1, characterized in that the coupling device (30) has a coupling interface (32), which can be mechanically and electrically connected to the interface (14) of the electric machine tool.
3. Electric machine tool according to Claim 1 or 2, characterized in that the at least first and second battery packs (60, 70) each have a connection interface (62, 72), via which the at least first and second battery packs (60, 70) can be selectively connected to the at least first and second battery interfaces (40, 50) or to the interface (14) of the electric machine tool.
4. Electric machine tool according to one of the preceding claims, characterized in that the at least first and second battery packs (60, 70) have identical overall sizes, nominal voltages and/or capacities.
5. Electric machine tool according to one of Claims 1 to 3, characterized in that the at least first and second battery packs (60, 70) have different overall sizes, nominal voltages and/or capacities.
6. Electric machine tool according to one of the preceding claims, characterized in that the coupling device (30) is designed for the parallel connection of the at least first and second battery packs (60, 70).
7. Electric machine tool according to one of Claims 1 to 5, characterized in that the coupling device (30) is designed for the series connection of the at least first and second battery packs (60, 70).
8. Electric machine tool according to Claim 6, characterized in that the coupling device (30) has a switching mechanism (90), which is designed to electrically conductively connect the electric machine tool during operation selectively to the at least first or to the at least second battery pack (60, 70).
9. Electric machine tool according to Claim 8, characterized in that the switching mechanism (90) is a manually actuated switch (80).
10. Electric machine tool according to one of Claims 1 to 9, characterized in that the coupling device has more than two battery interfaces (40) for connection to more than two battery packs (60, 70).
11. Coupling device for an electric machine tool (10) with at least one interface (14), via which the electric machine tool can be mechanically and electrically connected to at least one battery pack (20), characterized in that the coupling device can be mechanically and electrically connected to the electric machine tool (10) via the at least one interface (14), wherein the coupling device (30) is designed in the manner of a mechanical adapter and has at least one first battery interface (40) for connection to a first battery pack (60) and at least one second battery interface (50) for connection to a second battery pack (70).

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