WO2020064502A1 - Battery pack comprising a suppressor unit for reducing electromagnetic interference radiation - Google Patents

Abstract

The invention relates to a battery pack, in particular a hand-held power tool battery pack, comprising a housing, a battery interface for detachably connecting the battery pack to a consumer, wherein the battery interface has a mechanical interface for mechanically coupling the battery pack to the consumer and an electrical interface for electrically connecting the battery pack to the consumer, wherein the electrical interface has at least two electrical contact elements which are designed such that they can be connected to corresponding electrical contact elements of the consumer, and comprising at least one battery cell arranged in the housing of the battery pack, and comprising at least one electrical contact device for connecting the at least one battery cell to the electrical contact elements. According to the invention, the battery pack has a suppressor unit for reducing electromagnetic interference radiation.

Description

 description

BATTERY PACK WITH AN EMERGENCY UNIT TO REDUCE ELECTROMAGNETIC EMISSION RADIATION

State of the art

DE 20 2017 104 255 Ul describes an electric hand-held machine tool that can be mechanically and electrically connected to an accumulator for the mains-dependent power supply. The electric hand machine tool has an interference suppression system.

Disclosure of the invention

The invention relates to a battery pack, in particular a handheld power tool battery pack, with a housing, with a battery interface for releasably connecting the battery pack to a consumer, the battery interface being a mechanical interface for mechanically coupling the battery pack to the consumer and an electrical interface for electrically connecting the battery pack with the consumer, the electrical interface having at least two electrical contact elements which are designed to be connected to corresponding electrical contact elements of the consumer, with at least one battery cell which is arranged in the housing of the battery pack, and with at least one electrical contact device Connection of the at least one battery cell with the electrical contacts. It is proposed that the battery pack have an interference suppression unit for reducing electromagnetic interference. This can advantageously ensure that the battery pack and in particular the system comprising the battery pack and the consumer comply with limit values with regard to electromagnetic compatibility (EMC) in accordance with radio interference standards applicable worldwide.

The battery pack is in particular part of a system which is composed of the battery pack and the consumer, the consumer during operation the battery pack is supplied with energy. The battery pack is designed in particular as an exchangeable battery pack. The battery pack is in particular designed to be connectable to a charging device for charging the battery pack. The connection between the charging device and the battery pack is preferably via the battery interface. The housing of the battery pack is designed in particular as an outer housing. The battery pack, in particular the housing of the battery pack, is detachably connectable to the consumer and / or the charging device via the mechanical interface. The Ge housing of the battery pack can have one or more housing parts. The housing parts are non-positively, positively and / or cohesively connected, the connection can be made for example via a screw connection.

The consumer can in particular as a garden device, such as a lawn mower or hedge trimmer, as a household appliance, such as an electric window cleaner, a kitchen appliance or a handheld vacuum cleaner, as a hand tool, such as an angle grinder, a screwdriver, a drill, a rotary hammer , etc. or as a measuring tool, such as a laser distance measuring device. Furthermore, it is also conceivable that the consumer is designed as another device, in particular one that is portable, such as, for example, construction site lighting, a suction device or a construction site radio. The battery pack can be connected to the consumer in a force-locking and / or form-fitting manner via the mechanical interface. The mechanical interface advantageously comprises at least one actuating element, via which the connection of the battery pack to the consumer and / or to the charging device can be released. The actuating element can be designed, for example, as a button, as a lever or as a button. In addition, the battery pack has at least one electrical interface via which the battery pack can be electrically connected to the consumer and / or to the charging device. For example, the battery pack can be charged and / or discharged via the electrical connection. Alternatively or additionally, it is also conceivable that information can be transmitted via the electrical interface. The electrical interface is preferably designed as a contact interface, in which the electrical connection takes place via a physical contact of at least two conductive components. The two electrical contact elements are designed in particular as a plus contact and as a minus contact. The battery pack can be designed to be dischargable and / or rechargeable via the electrical contact element. In addition, the electrical interface can have a secondary charging coil element for inductive charging. Furthermore, the at least one battery cell is arranged in the housing of the battery pack is electrically connectable to the consumer via the electrical contact device. The battery cell can be designed as a galvanic cell, which has a structure in which a cell pole comes to lie at one end and another cell pole lies at an opposite end. In particular, the battery cell has a positive cell pole at one end and a negative cell pole at an opposite end. The battery cells are preferably designed as NiCd or NiMh cells, particularly preferably as lithium-based battery cells or Li-ion battery cells. Alternatively, it would also be conceivable for the battery cells to be designed as Li-polymer battery cells (Li-Po), where the positive and negative poles can be arranged in particular on the same side and can be designed, for example, as a contact tab. The battery voltage of the battery pack is usually a multiple of the voltage of a single battery cell and results from the number of battery cells connected in series. With common battery cells with a voltage of 3.6 V, this results in exemplary battery voltage of 3.6 V, 7.2 V, 10.8 V, 14.4 V, 18 V, 36 V, 54 V, 108 V, etc The battery cell is preferably designed as an at least substantially cylindrical round cell, the cell poles being arranged at the ends of the cylindrical shape. In addition, the electrical interface of the battery pack can have at least one additional contact, which is designed to transmit additional information to the consumer and / or to the charging device.

The battery pack preferably has electronics, wherein the electronics can comprise a storage unit on which information is stored. Additionally or alternatively, it is also conceivable that information is determined by the electronics. The information can be, for example, a charge status of the battery pack, a temperature inside the battery pack, coding or a residual capacity of the battery pack. It is also conceivable that the electronics are designed to regulate or control the charging and / or discharging process of the battery pack. The electronics can have, for example, a printed circuit board, a computing unit, a control unit, a transistor, a capacitor, and / or the storage unit. The electronics can also have one or more sensor elements, for example a temperature sensor for determining the temperature inside the battery pack. Alternatively or additionally, the electronics can have a coding element, such as a coding resistor, for example. The interference suppression unit can be designed to reduce dynamic interference from current-carrying conductors, in particular the electrical contact device, and / or to reduce static interference, in particular magnetic and / or electrical interference.

Furthermore, it is proposed that the interference suppression unit be arranged in the area of the electrical contact device. This can advantageously be an effective reduction of dynamic disturbances. In particular, the interference suppression unit has at least one interference suppression element which at least partially bears against the electrical contact device and / or encloses it. Alternatively or additionally, it is also conceivable that the interference suppression element is arranged in the area of the electronics, in particular on the circuit board of the electronics. The interference suppression element can lie freely in the housing or can be fastened in or on the housing. The housing preferably has a receiving pocket for receiving the at least one interference suppression element. Alternatively, it would also be conceivable for the interference suppression element to be arranged, in particular soldered, on the printed circuit board of the electronics. As an alternative or in addition, it is also conceivable that the interference suppression element is arranged in the region of a signal cable, in particular abuts against it and / or at least partially surrounds it. The signal cable can be provided, for example, for the transmission of coding resistances, for the transmission of individual voltages of the battery cells or for the transmission of temperature information from a temperature sensor.

It is further proposed that the interference suppression device has at least one interference suppression element per electrical contact device, which is arranged in the region of the respective electrical contact device. The effectiveness of the interference suppression unit can thereby advantageously be further improved. Different Entstörele elements or the same interference suppression elements can be used.

In addition, it is proposed that the at least one electrical contact device has at least one cell connecting element and a conductor element, the conductor element being connected to one of the electrical contact elements, the interference element at least partially enclosing the conductor element and / or resting on the conductor element. The cell connecting element is provided with at least one battery cell, special at least two battery cells connected, preferably cohesively connected. The integral connection can be realized via a welded connection, for example by means of resistance welding or laser welding. The cell connecting element is preferably formed in one piece. In this context, “in one piece” is to be understood in particular to mean that the component in question is made from one piece. The conductor element can be formed at least partially in one piece and / or in one piece with the cell connecting element. The conductor element can be formed in one piece or in one piece. In the context of this application, “one-piece” is to be understood to mean, in particular, a component that consists of several components which are essentially firmly connected to one another, for example by means of a material bond or by injection molding. The cell connecting element and the conductor element are at least partially, in particular completely, electrically conductive. Preferably, the cell connecting element and the conductor element consist of a metallic material. The Leiterele element can, for example, at least partially as a wire, as a stranded wire, as a cable, as a pipe conductor, as a web line or a flat connector, or the like. Alternatively, it is proposed that the interference suppression element at least partially encloses the cell connection element and / or rests on the cell connection element. For example, the interference suppression element can be arranged between two battery cells.

In particular, the electrical contact device, preferably the conductor element, and / or the interference suppression element has a protective element. The protective element is preferably at least partially arranged between the electrical contact device and the interference suppression element. The protective element can, for example, be designed to be electrically insulating. Alternatively or in addition, the protective element can also be formed to damp vibrations, for example by means of an elastic deformation. The protective element is preferably made of a plastic-containing material or plastic. The protective element can for example be designed as a shrink tube. It is also conceivable that the protective element consists of a coating.

Furthermore, it is proposed that the electrical contact device have a fuse element, the interference suppression element in the area of the fuse element is arranged. The fuse element advantageously protects the electronics of the battery pack, for example in the event of a short circuit. The fuse element is in particular designed as an electrical fuse element. The fuse element is in particular designed in such a way that in the event of a trip, for example in the event of a short circuit, the fuse element is destroyed and an exchange is therefore necessary. The securing element can be designed, for example, as a fuse. Before preferably the securing element has a cylindrical shape. Preferably, the securing element comprises a ceramic sleeve in which a wire fuse is arranged.

It is further proposed that the interference suppression element is designed as a ferrite element, in particular a ferrite pearl element. The ferrite element is designed in particular to increase the inductance, preferably the longitudinal inductance. As a result, high-frequency interference can advantageously be reduced. It is also conceivable that the ferrite element is designed as a ferrite ring or a hinged ferrite.

In addition, it is proposed that the interference suppression element be designed as a choke element, in particular as a rod core choke, as an RC element or as a capacitor, in particular as a feed-through capacitor.

Furthermore, the invention relates to a system consisting of a hand tool and a battery pack as described above, the hand tool having no interference suppression unit. The only arrangement of the interference suppression unit in the battery pack advantageously allows a compact and inexpensive hand tool machine to be realized.

Furthermore, the invention relates to a system consisting of a hand tool with an interference suppression unit and a first battery pack as described above and a second battery pack as described above, the interference suppression unit of the first battery pack being different from the interference suppression unit of the second battery pack. As a result, the interference suppression unit in the handheld power tool can advantageously be implemented with little effort, the interference suppression unit in the battery pack being designed such that the system complies with the EMC limit values regardless of the battery pack used. In this context, two different interference suppression units are to be understood to mean, in particular, two interference suppression units which operate in this way are trained that electromagnetic interference radiation are reduced by them to a different extent. Preferably, the differing interference suppression units differ from one another in their shape and / or in their effect by different interference suppression elements.

drawings

Further advantages result from the following description of the drawing. The drawings, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into useful further combinations.

Show it:

Figure 1 is a side view of a system consisting of a hand tool machine and a battery pack according to the invention.

Fig. 2 is an exploded view of the battery pack according to the invention.

Description of the embodiments

1 shows a side view of a system 10 consisting of a consumer 14 designed as a handheld power tool 12 and a battery pack 18 designed as a handheld power tool battery pack 16. The hand tool 12 is thus ausgebil det as a cordless hand tool and is supplied with energy during operation via the battery pack 18. The hand machine tool 12 and the battery pack 18 each have a mechanical interface 20, 22, via which the two components of the system 10 are releasably connected to each other. The mechanical interface 22 of the battery pack 18 is assigned to a battery interface 17. The battery pack 18 is thus designed as a removable battery pack and can be replaced by the same or a similar battery pack.

The handheld power tool 12 is exemplified as a hammer drill 24. The handheld power tool 12 has a housing 26, at the rear end of which a handle 28 with an operating switch 30 for switching the handheld power tool 12 on and off is arranged. At the front end of the housing 26 of the handheld power tool 12, a tool holder 31 is arranged, which is provided for receiving an insert tool 32. Between the handle 28 and the tool holder 31, an electric motor 34 and a gear 36 having a drive unit 38 is arranged. The gear 36 comprises a striking mechanism unit 40 and is arranged above the electromotor 34. The striking mechanism unit 40 comprises a pneumatic striking mechanism. The striking mechanism can be designed, for example, as an eccentric hammer mechanism or as a wobble hammer mechanism. Electronics 42 are arranged below the electric motor 34, by means of which the handheld power tool 12 can be regulated or controlled.

The battery pack 18 is arranged below the handle 28 and adjacent to the electronics 42. The handle 28 is connected via a vibration damping unit 29 to the area of the housing 26 comprising the drive unit 38, so that the vibrations emanating from the striking mechanism unit 40 dampens the handle 28 and also dampens the mechanical interfaces 20, 22 of the hand tool 12 and of the battery pack 18 transmitted will. The handle 28 is thus ausgebil det as a vibration-decoupled handle. The battery pack 18 and the consumer 14 each have a corresponding electrical interface 44, 46, via which the battery pack 18 is electrically connected to the consumer 14, in particular the electronics 42 of the consumer 14. The electrical interface 46 of the battery pack 18 is also assigned to the battery interface 17. In the interconnected state, the battery pack 18 provides the energy supply for the consumer 14.

2 shows the battery pack 18 in an exploded view. The battery pack 18 is detachably mechanically connected to the consumer 14 via the mechanical interface 22. The battery pack 18 has a housing 48 which is formed in several parts in a playful manner. The housing 48 consists of a plastic-containing housing material. The housing 48 is preferably formed at least partially from a polycarbonate or a high-density polyethylene (HD PE). The housing 48 is in particular ausgebil det as an outer housing. The housing 48 has a cell housing 50, an interface housing part 52 and two side housing parts 54. The housing parts 50, 52, 54 are connected to each other via fastening elements 56, which are designed as screws, for example. The housing parts 50, 52, 54 are all at least partially designed as outer housing parts.

On the front of the battery pack 18, a charge status indicator 58 is arranged, via which the charge status of the battery pack 18 can be displayed. The housing 48 of the battery pack 18, in particular the interface housing part 52, comprises the mechanical interface 22 and the electrical interface 46. The battery pack 18 is designed, for example, as a sliding battery pack. The battery pack 18 is pushed for connection to the hand tool 12 along a connec tion direction 23 on the hand tool 12.

The mechanical interface 22 has a pair of holding elements 60, on which the battery pack 18 is held in the state connected to the handheld power tool 12. The holding elements 60 are designed, for example, as guide rails 62. The holding elements 60 extend essentially parallel to the direction of connection 23 of the battery pack 18. In the state connected to the machine tool 12, the holding elements 60 engage in corresponding guide grooves of the mechanical interface 20 of the machine tool 12. In addition, the mechanical interface 22 of the battery pack 18 has a locking element 63. The locking element 63 is movable, in particular rotatable, mounted in the housing 48 of the battery pack 18. The locking element 63 is designed to lock the battery pack 18 with the handheld power tool 12 in the connected state. The locking element 63 is exemplified as a locking element which engages in a recess, not shown, in the housing 26 of the handheld power tool 12. To solve this positive and positive connection, the Ak kupack 18 has an operating element, which is arranged on the rear side of the battery pack 18, not shown.

The battery pack 18 has, for example, ten battery cells 64, which are arranged in the housing 48 of the battery pack 18, in particular in the cell housing 50. The battery cells 64 are designed as Li-ion round cells. The battery cells 64 extend within the cell housing 50 crossing, in particular substantially perpendicularly, to the connection direction 23 of the battery pack 18. The battery pack 18 is designed, for example, as a two-layer battery pack 18 in which the battery cells 64 are in two parallel positions, each with five battery cells 64 comprise, are arranged.

The electrical interface 46 of the battery pack 18 has five electrical contact elements 66. The electrical contact elements 66 are arranged on electronics 68 of the battery pack 18. In particular, the electrical contact elements 66 are arranged or fastened on a printed circuit board 70 of the electronics 68. The electrical contact elements 66 are positioned side by side. The housing 48, in particular the interface housing part 52, has cutouts 72 in which the electrical contact elements 66 are arranged such that they can be connected to corresponding electrical contact elements (not shown) of the consumer 14. The two external electrical contact elements 66 are designed as power contacts 74, via which the consumer 14 in the state connected to the battery pack 18 with power is available. The intermediate electrical contact elements 66 are designed as additional contacts 76 or as signal contacts.

The electrical contact elements 66 designed as power contacts 74 are each connected to the battery cells 64 via an electrical contact device 78. In this case, a power contact 74 is connected via an electrical contact device 78 to the battery cells 64. The electrical contact device 78 shown comprises a cell connecting element 80, a conductor element 82 and a fuse element 84. The electrical contact device 78 connected to the electrical contact element 66, not shown, has no fuse element.

The cell connecting element 80 has a plate-shaped area 81 and lies above this against a cell pole of at least one, for example two, battery cells 64. In particular, the two cell poles are connected to one another by two battery cells 64 via the cell connecting element 80. The cell connection element 80 is preferably integrally connected to the battery cells 64, in particular the plate-shaped region 81 of the cell connection element 80 to the cell poles of the battery cells 64, for example via a welded connection. The cell connection element 80, in particular the plate-shaped region 81, is formed from an electrically conductive material. The plate-shaped region 81 of the cell connection element 80 consists in particular of a metal sheet, preferably of a copper or stainless steel metal sheet.

The conductor element 82 is designed, for example, as a strand 86. The strand 86 is made, for example, of copper, in particular OFC copper. The Leiterele element 82 is connected on one side to the cell connecting element 80, in particular in particular materially connected, and on an opposite side the conductor element 82 is connected to the securing element 84. The hedging element 84 is designed as a fuse. The Sicherheitsele element 84 has a cylindrical design. The securing element 84 has a ceramic sleeve in which a metallic wire, for example a silver wire, is received. On the side facing away from the conductor element 82, the hedging element 84 is connected to the electrical contact element 66. Furthermore, the battery pack 18 has an interference suppression unit 88 for reducing electromagnetic interference radiation. The interference suppression unit 88 is completely accommodated in the housing 48 of the battery pack 18. The interference suppression unit 88 has an interference suppression element 90. The interference suppression unit 88, in particular the interference suppression element 90, is arranged between the battery cells 64 and the mechanical interface 22 of the battery pack 18, preferably between the circuit board 70 of the electronics 68 and a housing area of the housing 48 comprising the mechanical interface 22.

The interference suppression element 90 is preferably arranged in the area of the electrical contact device 78. The interference suppression element 90 is arranged, for example, in such a way that the interference suppression element 90 surrounds the conductor element 82 at a distance from the securing element 84 and at least partially abuts against it. Alternatively, it would also be conceivable that the interference suppression element 90 is arranged in such a way that it encloses the securing element 84 at a distance from the conductor element 82 and at least partially bears against it. It would also be conceivable that the interference suppression element 90 is arranged in such a way that it at least partially encloses both the conductor element 82 and the securing element 84 and / or bears against them. The distance of the interference suppression element 90 from the electrical contact element's 66 is only to be regarded as an example and can vary depending on the requirement.

The interference suppression element 90 is designed in particular as a ferrite element 92.

The ferrite element 92 has a push-through opening through which the electrical contact device 78, in particular the conductor element 82, is pushed through during assembly.

Alternatively, it would also be conceivable that the interference suppression element 90 is designed as a choke, in particular as a rod core choke. The throttle can be connected to the conductor element 82 or at least partially, in particular completely continuously, as a conductor element.

Claims

Expectations

1. battery pack, in particular hand tool battery pack, with a Ge housing (48) with a battery interface (17) for detachable connection of the battery pack (18) to a consumer (14), the battery interface (17) having a mechanical interface (22) for mechanical Coupling the battery pack (18) with the consumer (14) and an electrical interface (46) for electrically connecting the battery pack (18) to the consumer (14), the electrical interface (46) having at least two electrical contact elements (66 ) which are designed to be connectable with corresponding electrical contact elements of the consumer (14), with at least one battery cell (64) which is arranged in the housing (48) of the battery pack (18), and with at least one electrical contact device (78) Connection of the at least one battery cell (64) to the electrical contact elements (66), characterized in that the battery pack (18) has an interference suppression unit (88) for reducing e has electromagnetic interference.

2. Battery pack according to claim 1, characterized in that the interference suppression unit (88) is arranged in the region of the electrical contact device (78).

3. Battery pack according to one of the preceding claims, characterized in that the interference suppression unit (88) has at least one interference suppression element (90) which at least partially abuts the electrical contact device (78) and / or encloses it.

4. Battery pack according to claim 3, characterized in that the interference suppression unit (88) per electrical contact device (78) has at least one interference suppression element (90) which is arranged in the region of the respective electrical contact device (78).

5. Battery pack according to claim 3 or 4, characterized in that the at least one electrical contact device (78) has at least one cell connection element (80) and a conductor element (82), the conductor element (82) having one of the electrical contact elements (66 ) is connected, the interference suppression element (90) at least partially enclosing the conductor element (82) and / or abutting the conductor element (82).

6. Battery pack according to claim 3 or 4, characterized in that the at least one electrical contact device (78) has at least one cell connection element (80) and a conductor element (82), the conductor element (82) having one of the electrical contact elements (66 ) is connected, the interference suppression element (90) at least partially enclosing the cell connection element (80) and / or abutting the cell connection element (80).

7. Battery pack according to one of claims 3 to 6, characterized in that the electrical contact device (78) has a securing element (84), the interference suppression element (90) being arranged in the region of the securing element (84).

8. Battery pack according to one of claims 3 to 7, characterized in that the interference suppression element (90) as a ferrite element (92), in particular a ferrite bead element, is formed.

9. Battery pack according to one of claims 3 to 7, characterized in that the interference suppression element (90) as a throttle element, in particular as a rod core selector, as an RC element, as a ferrite ring, as a folding ferrite or as a capacitor, in particular as a feed-through capacitor is formed.

10. System consisting of a hand tool (12) and a battery pack (18) according to any one of the preceding claims, characterized in that the hand tool (12) has no interference suppression unit.

11. System consisting of a hand tool (12) and a first battery pack (18) according to one of claims 1 to 9 and a second battery pack according to one of claims 1 to 9, characterized in that the interference suppression unit (88) of the first battery pack (18) from the interference suppression unit of the second battery pack.