EP2686935A1

EP2686935A1 - Mobile charging device

Info

Publication number: EP2686935A1
Application number: EP12706224.8A
Authority: EP
Inventors: Klaus Bertsch; Stefan Mayer; Peter Roth
Original assignee: Hilti AG
Current assignee: Hilti AG
Priority date: 2011-03-16
Filing date: 2012-02-16
Publication date: 2014-01-22
Also published as: US20140103858A1; WO2012123210A1; DE102011005646A1

Abstract

The invention relates to a mobile charging device for at least one electrically power tool (25, 26, 28) comprising at least one rechargeable battery (56) that can be charged by the mobile charging device (5). In order to further simplify the operation of an electrically powered tool, the mobile charging device (5) comprises an energy storage apparatus (10) for storing electrical energy that can be used for charging the rechargeable battery (56) of the electrically powered tool (25, 26, 28) without mains power.

Description

Mobile charger

Technical area

The invention relates to a mobile charger for at least one electrically operable power tool that includes at least one battery that is chargeable by the mobile charger. The invention further relates to a charging system for at least two electrically operable power tools, each comprising at least one battery which is chargeable by such a mobile charger. The invention also relates to a method for operating such a charging system.

PRIOR ART US Pat. No. 7,462,951 B1 discloses an inductive charging station for electrically operated tool devices. German Offenlegungsschrift DE 33 05 224 A1 discloses an on-board battery charger for charging the main battery of an electric-storage road vehicle with a capacitive buffer.

DESCRIPTION OF THE INVENTION The object of the invention is to further simplify the operation of an electrically operable power tool comprising at least one rechargeable battery which can be charged by a mobile charger.

The object is solved in a mobile charger for at least one electrically operable power tool, comprising at least one rechargeable battery, which is chargeable by the mobile charger, characterized in that the mobile charger comprises an energy storage device for storing electrical energy that can be used to to recharge the battery of the electrically operable power tool net. Mobile in connection with the charger means that the charger alone is portable or portable, regardless of other devices or together with other devices. Battery is a short form of accumulator. In the context of the invention, however, other power storage devices such as capacitors can be charged by the mobile charger. Off-line means that the mobile charger does not need to be connected to a power supply network to charge the battery of the electrically operable power tool. The energy storage device is preferably designed so large that the battery can be charged at least once, possibly even several times, without the mobile charger must be connected to a power supply network. It is also possible to charge several, possibly different, batteries from the energy storage device of the mobile charger. The tool devices are preferably also designed to be mobile.

A preferred embodiment of the mobile charger is characterized in that the mobile charger has an interface for contactless and / or wireless energy transfer between the energy storage device and the battery of the electrically operable power tool. According to a further embodiment, the mobile charger alternatively or additionally on an interface for contact-based energy transfer between the energy storage device and the battery of the electrically operable power tool. The interface is preferably designed as a high current interface. The contactless and / or wireless energy transmission may contribute to increase the safety when charging the battery.

Another preferred embodiment of the mobile charger is characterized in that the interface for contactless and / or wireless energy transmission is designed so that currents of more than 100 amperes can be transmitted. This allows very short charging times of the batteries. A further preferred embodiment of the mobile charger is characterized in that the interface for contactless and / or wireless energy transmission is assigned a control interface. The control interface ensures that energy transfer can take place only if the battery is arranged correctly relative to the mobile charger, for example plugged or plugged on and / or locked.

Another preferred embodiment of the mobile charger is characterized in that the mobile charger has a power connector for charging the Energy storage device in the mobile charger has. The power connector includes, for example, a power cord with a power plug, but can also be designed wirelessly. The charger according to the invention can be operated via the mains connection as a conventional charger to charge the battery or multiple batteries from a power supply network. The inventive design of the mobile charger, an additional charging option is provided from the energy storage device, which is integrated into the mobile charger.

Another preferred embodiment of the mobile charger is characterized in that the mobile charger is integrated in a tool box, a backpack or a belt. This will / facilitate the handling and / or transportation of the mobile charger.

Another preferred embodiment of the mobile charger is characterized in that the mobile charger comprises a photovoltaic panel connected to the energy storage device in the mobile charger for energy transfer. The energy storage device integrated in the mobile charger can also be charged via the photovoltaic panel, even if the mobile charger is not connected to a power supply network.

Another preferred embodiment of the mobile charger is characterized in that the mobile charger has a power storage device upstream converter and / or a charge storage device downstream of the energy storage device. Upstream in connection with the converter means that the converter is connected between a power supply network and the energy storage device. Downstream in connection with the charge controller means that the charge controller is connected between the energy storage device and the interface to the battery. The converter serves to remove electrical energy from a connected electrical power supply network, to convert and to charge the energy storage device in the mobile charger. About the charge controller ensures that the electrical energy stored in the electrical energy storage device is discharged controlled to the battery. In a charging system for at least two electrically operable power tools, each comprising at least one battery that is chargeable by a previously described mobile charger, the above object is alternatively or additionally characterized solved that the batteries of the tool devices interfaces for contactless and / or wireless energy transfer between the energy storage device and the batteries and / or contactless and / or wireless energy transfer between the batteries of the electrically operated tool devices. According to a further exemplary embodiment, the rechargeable batteries of the tool devices alternatively or additionally have an interface for the contact-type energy transfer between the energy storage device and the rechargeable battery and / or between the rechargeable batteries of the electrically operated tool devices. Due to the contactless and / or wireless energy transmission, the safety during operation of the charging system may be increased. The preferably removable batteries can be charged in particular contactless both by the energy storage device and with each other. This makes it possible to charge the battery of a more heavily discharged tooling device by the battery of another tooling device that is not yet discharged so heavily. As a result, the energy of several available tool devices can be completely consumed even if only one tool device is used.

A preferred embodiment of the charging system is characterized in that the mobile charger and / or the batteries of the electrically operable power tool communication interfaces for contactless and / or wireless data transmission between the energy storage device and the batteries, and / or for contactless and / or wireless data transmission between the Have batteries of electrically operated tool devices. Consumption data can be exchanged between the energy storage device and the rechargeable batteries as well as between the rechargeable batteries or communicated to a controller which is integrated into the mobile charger via the communication interfaces. In addition, service data can be read out via the communication interfaces and / or software updates can be made.

Another preferred exemplary embodiment of the charging system is characterized in that the batteries of the electrically operable tool devices have interfaces for contactless and / or wireless energy transfer between the batteries and the electrically operated tool devices. As a result, the safety during operation of the charging system according to the invention is further increased.

Another preferred embodiment of the charging system is characterized in that the interfaces for contactless and / or wireless Power transmission and the communication interfaces for contactless and / or wireless data transmission are each combined in a multifunction interface. The communication interfaces can be integrated, for example, by modulation or attenuation of an electromagnetic field used for energy transmission in the interfaces for energy transmission.

Another preferred exemplary embodiment of the charging system is characterized in that the batteries of the electrically operable tool devices are smaller and / or lighter than conventional rechargeable batteries of electrically operated tool devices. Due to the design of the charging system according to the invention, the weight and the size of the electrically operated tool devices can be reduced.

A further preferred exemplary embodiment of the charging system is characterized in that the electrically operable tool devices comprise hand-held power tools, such as a drill, a bolt-setting device, a nailer, a hand-held tacker or a measuring device. The tool tools mentioned are preferably used in the construction industry, where the use of mains operated devices is critical in terms of operational safety.

The invention further relates to a method for operating a charging system described above. By means of the charging system according to the invention, it is possible, for example, for a user who only uses a tool device for a few minutes at a work rhythm and the device does not use it for a few minutes to use a small, lightweight battery which only uses the tool device for operate for a few minutes and recharge in idle time on the mobile charger.

Further advantages, features and details of the invention will become apparent from the following description in which, with reference to the drawings, various embodiments are described in detail. Show it:

1 shows a greatly simplified representation of a charging system according to the invention with a mobile charger and three electrically operable power tools according to a first embodiment;

Figure 2 shows a mobile charger with a battery according to another

Embodiment; 3 shows a tool case, in which a mobile charger, as shown for example in Figures 1 and 2, is integrated, and

Figure 4 shows a craftsman with a belt to which a mobile charger and a battery are attached, when working on a pole. embodiments

In Figure 1, a charging system 1 with a mobile charger 5 is shown greatly simplified. In Figure 2, a similar mobile charger 45 is also shown as greatly simplified in Figure 1. The mobile charger 5; 45 can via a power cord 6; 46 and a power plug 7; 47 are connected to an electrical power grid. In a housing 8; 48 of the mobile charger 5; 45 is an energy storage device 10 according to an essential aspect of the invention; 50 arranged, can be stored in the electrical energy. The electric power is supplied, for example, from the electric power supply network when the mobile charger 5; 45 via the power cord 6; 46 and the power plug 7; 47 is connected to the electrical power grid. A transducer 12; 52 is between the power cord 6; 46 and the energy storage device 10; 50 switched. The converter 12; 52 serves to convert electrical energy taken from the electrical power supply network. The converted electrical energy is then stored in the energy storage device 10; 50 stored and can be dispensed as needed. The mobile charger 5 illustrated in FIG. 1 comprises a controller 15 with a control device and a data memory. The mobile charger 5 further includes an interface 20, which is also referred to as a multifunction interface. Both data and electrical energy can be transmitted wirelessly or contactlessly via the interface 20. The charging system 1 shown in Figure 1 further comprises mobile, electrically operable power tools 25, 26 and 28, which are each equipped with a removable battery. The tool devices 25, 26 and 28 further each include an interface 31, 32, the wireless or contactless energy transmission and a wireless or contactless data transmission allows. The interfaces 31, 32 are therefore also referred to as multifunction interfaces.

Dashed arrows indicate in FIG. 1 that the batteries of the tool devices 25, 26 and 28 can be charged contactlessly via the mobile charger 5. To charge the batteries, the mobile charger 5 can be connected via the power cord 6 to the electrical power grid. According to an essential aspect of the invention, the charging of the batteries of the tool devices 25, 26 and 28 but also via the integrated in the mobile device e energy storage device 10 can be done without the mobile charger 5 is connected to the electrical power grid.

The illustrated in Figure 2 mobile charger 45 includes a charge controller 54, which serves to supply a battery 56 as needed with electrical energy from the energy storage device 50, which is integrated into the mobile charger 45. The battery 46 can be supplied via an interface 60 with electrical energy from the energy storage device 50. The battery 56 is relatively lightweight and can be charged within a recharge time of less than three minutes from the energy storage device 50. The battery 56 is preferably designed as a power battery with an energy content of more than 450 kJ.

Charging the battery 56 via the electrical power grid could cause disturbances in the electrical power grid because, for example, electrical fuses would become overloaded. The energy storage device 50 according to the invention makes it possible to charge even batteries with a high energy content quickly without disturbances in the power supply network occur.

An arrow 61 indicates that the converter 52 draws electrical energy from the electrical power supply network connected via the power cable 47 and charges the electrical energy storage device 50 in the mobile charger 45 over a mean time range of, for example, 5 to 180 minutes. Once the energy storage device 50 is filled, the battery 56 can be charged. By arrows 62 and 63 it is indicated that the electrical energy from the energy storage device 50 via the charge controller 54 and the interface 60 is supplied to the battery 56. By a double arrow 64 between the charge controller 54 and the interface 60 is indicated that the electrical energy from the energy storage device 50 is not released uncontrollably. A communication interface integrated in the interface 60 ensures that the electrical energy is only transferred from the energy storage device 50 to the battery 56 when the battery 56 is correctly attached to the mobile charger 45. In this case, the interface 60 is designed so that currents of over 100 amperes can be transmitted in the energy transfer.

FIG. 3 shows in simplified form a tool case 70 with a carrying handle. The tool case 70 contains two rechargeable batteries 71, 72, with which a drill 73, which is likewise contained in the tool case 70, can be operated. In accordance with one essential aspect of the invention, a mobile charger 75 is incorporated in the tool case 70, as shown in FIGS. 1 and 2, for example. The mobile charger 75 includes an energy storage device 50 that can be charged via a power cord 76 and a power plug 77 from an external power supply network.

If the tool case 70 or the energy storage device integrated into the mobile charger 75 is connected to the electrical power supply via the power cable 76, the batteries 71, 72 can be charged from the electrical power supply network as well as with conventional chargers. The energy storage device integrated in the mobile charger 75 also makes it possible to recharge the rechargeable batteries 71 independently of the electrical power supply network, ie, power-free, as required.

In accordance with another aspect of the invention, a photovoltaic panel 78 is attached to the tool case 70. Via the photovoltaic panel 78, the energy storage device integrated in the mobile charger 75 can also be charged when the tool case 70 or the mobile charger 75 is not connected to the external power supply network. As a result, it is possible to work with the drill 73 even longer independently of the mains.

The connection between the batteries 71, 72 and the mobile charger 75 can be made via contacts outside or inside the tool case 70. The connection between However, the batteries 71, 72 and the mobile charger 75 can also be wireless or contactless.

FIG. 4 shows a craftsman 90 who carries out repairs to lines 94, 95 on a line mast 92. The craftsman 90 carries a belt 100 with tools. On the belt 100, a mobile charger 105 and a battery 106 are mounted for an electrically operable tool. For example, the mobile charger 105 is configured as the mobile chargers 5 shown in Figs. 1 and 2; 45. About the mobile charger 105, the battery 106 can be charged independently of the mains at work or assembly.

Claims

cLAIMS

A mobile charger for at least one electrically operable power tool (25,26,28; 73) comprising at least one rechargeable battery (56; 71,72;

Charger (5; 45; 75; 105) is chargeable, characterized in that the mobile charger (5; 45; 75; 105) comprises energy storage means (10; 50) for storing electrical energy that can be used to charge the battery Rechargeable battery (56, 71, 72, 106) of the electrically operable power tool (25,26,28; 73) recharge power.

2. Mobile charger according to claim 1, characterized in that the mobile charger (5; 45; 75; 105) has an interface (20,60) for in particular contactless and / or wireless energy transfer between the energy storage device (20; 50) and the battery (56, 71, 72, 106) of the electrically operable power tool (25, 26, 28, 73).

3. Mobile charger according to claim 2, characterized in that the interface (20; 60) for the particular contactless and / or wireless power transmission is designed so that currents of more than 100 amperes can be transmitted.

4. Mobile charger according to claim 2 or 3, characterized in that the interface (20; 60) is assigned to the particular contactless and / or wireless power transmission, a control interface.

5. Mobile charger according to one of the preceding claims, characterized in that the mobile charger (5; 45; 75; 105) has a mains connection for charging the energy storage device (10; 50) in the mobile charger (5; 45; 75; 105) having.

6. Mobile charger according to one of the preceding claims, characterized in that the mobile charger (75; 105) in a tool box (70), a backpack or a belt (100) is integrated.

7. Mobile charger according to one of the preceding claims, characterized in that the mobile charger (75) has a photovoltaic panel (78) which is connected to the energy transfer to the energy storage device (50) in the mobile charger (75).

8. Mobile charger according to one of the preceding claims, characterized in that the mobile charger (5; 45) one of the energy storage device (10; 50) upstream converter (12; 52) and / or one of the energy storage device (10; 50) downstream charge controller (54).

9. Charging system for at least two electrically operable power tools (25,26,28; 73), each comprising at least one battery (56; 71, 72; 106), which by a mobile

Charger (5; 45; 75; 105) can be charged according to one of the preceding claims, characterized in that the rechargeable batteries (56; 71, 72; 106) of the tool devices (25, 26, 28; 73) have interfaces (31, 32) for in particular contactless and / or wireless energy transmission between the energy storage device (10; 50) and the rechargeable batteries (56; 71, 72; 106), and / or for the in particular contactless and / or wireless

Energy transmission between the batteries (56, 71, 72, 106) of the electrically operated tool devices (25, 26, 28, 73).

10. Charging system according to claim 9, characterized in that the mobile charger (5; 45; 75; 105) and / or the rechargeable batteries (56; 71, 72; 106) of the electrically operable power tools (25,26,28; 73) Communication interfaces (20, 60) for in particular contactless and / or wireless data transmission between the energy storage device (10, 50) and the rechargeable batteries (56, 71, 72, 106), and / or for, in particular, contactless and / or wireless data transmission between the rechargeable batteries (20; 56, 71, 72, 106) of the electrically operable tool devices (25, 26, 28, 73).

1 1. Charging system according to claim 9 or 10, characterized in that the batteries (56; 71, 72; 106) of the electrically operable tool devices (25,26, 28; 73) interfaces (20; 60) for in particular contactless and / or wireless energy transfer between the batteries (56, 71, 72, 106) and the electrically operable power tools (25, 26, 28, 73).

12. Loading system according to claim 10 or 11, characterized in that the interfaces for the particular contactless and / or wireless energy transmission and the communication points for particular contactless and / or wireless data transmission in each case in a multifunction interface (20; 31, 32; 60) are combined.

13. Charging system according to one of claims 9 to 12, characterized in that the rechargeable batteries (56, 71, 72, 106) of the electrically operable tool devices (25, 26, 28, 73) are smaller or lighter than conventional rechargeable batteries of electrically operated tool devices ,

14. Loading system according to one of claims 9 to 13, characterized in that the electrically operable tool devices (25,26,28; 73) hand tool devices, such as a drill, a bolt setting device, a nail device, a hand-held tacker or a measuring device include.

15. A method for operating a charging system (1) according to one of claims 9 to 14.