DE202017105258U1 - Battery Pack Adapter - Google Patents

Abstract

Battery pack adapter for a battery pack system, comprising a housing (32), having a first interface (50), which is designed for the electrical and mechanical connection of the battery pack adapter (14) to a consumer (100) and to a second interface (52) which is connected to electrical and mechanical connection of the battery pack adapter (14) with a first battery pack (16) is formed, characterized in that the battery pack adapter (14) comprises a damping element (62) comprising a damping unit (60) for damping vibrations.

Description

State of the art

In the EP 2 307 174 B1 a power tool with a coupling device is described which has a plurality of battery interfaces for connection to a first battery pack and a second battery pack and the power tool.

Disclosure of the invention

The invention relates to a battery pack adapter for a battery pack system, having a housing, with a first interface, which is designed for electrical and mechanical connection of the battery pack adapter with a consumer and with a second interface, which is designed for electrical and mechanical connection of the battery pack adapter with a first battery pack is. It is proposed that the battery pack adapter has a damping unit comprising a damping element for damping vibrations. In particular, the damping unit is also designed for damping shocks. Advantageously, the robustness of a battery pack and a consumer comprehensive battery pack system can be increased. Furthermore, vibrations or resilient masses, impacts and shock-like force effects occurring by means of the damping unit can be reduced, whereby the wear in the region of the interfaces can advantageously be reduced.

The battery pack system includes a consumer and at least one battery pack. A battery pack adapter should in particular be understood to mean a component which mechanically and electrically connects the consumer to the at least one battery pack in such a way that the consumer can be supplied with energy via the battery pack. The battery pack adapter is in particular without tools connected to the consumer and without tools connectable to the at least one battery pack. The battery pack adapter is preferably designed as an accessory which provides at least one additional and optional function. The battery pack system can thus be operated with and without the battery pack adapter.

The consumer is in particular designed as a portable device. Preferably, the consumer is a gardening tool such as a lawn mower or a hedge trimmer, a hand tool, such as an angle grinder, a screwdriver, a drill, a hammer drill, etc., or a measuring tool such as a laser range finder. Alternatively, it is also conceivable that the consumer can be designed as a radio, as a lamp or as a suction. The battery pack interface is provided in particular for a battery pack system in which the proportion by weight of the battery pack is at least 1/8 of the total weight, preferably at least 1/4 of the total weight, preferably at least 1/3 of the total weight. In such weight ratios, it can be due to the high weight of the battery packs and the inertia of the battery pack to a very high load on the mechanical connection in case of dropping the system, which can lead to a non-reversible damage to the mechanical components in the interface.

The battery pack comprises at least one battery cell, which is accommodated in a housing of the battery pack. The battery pack furthermore has a battery pack interface via which the battery pack can be connected without tools to a consumer interface of the consumer. The battery pack interface comprises an electrical interface via which the at least one battery cell can be electrically connected to the consumer. The battery cell may be formed as a galvanic cell having a structure in which a cell pole comes to lie at one end and another cell pole 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. Preferably, the battery cells are designed as NiCd or NiMh, particularly preferably as lithium-based battery cells. The battery voltage of the battery pack is usually a multiple of the voltage of a single battery cell and results from the circuit (parallel or serial) of the battery cells. With standard battery cells with a voltage of 3.6 V, this results in exemplary battery voltages of 3.6 V, 7.2 V, 10.8 V, 14.4 V, 18 V, 36 V, 54 V, 108 V etc. Preferably, the battery cell is designed as an at least substantially cylindrical round cell, wherein the cell poles are arranged at the ends of the cylindrical shape. In particular, the electrical interface comprises at least two electrical contact elements which are designed to transmit energy. Alternatively or additionally, the electrical interface may have a secondary charging coil element for inductive charging. In addition, the electrical interface may comprise further contact elements, which are designed to transmit additional information, which is preferably determined via an electronic system, to the consumer. This may be, for example, a state of charge of the battery pack, a temperature within the battery pack, an encoding or a residual capacity of the battery pack. It is conceivable that the electronics regulates or controls the charging and / or discharging process of the battery pack. The electronics may, for example, at least one printed circuit board, a computing unit, a transistor, a capacitor and / or a memory exhibit. The electronics can also have one or more sensor elements, for example for determining the temperature within the battery pack. The electronics may alternatively or additionally comprise an encoding element, such as a coding resistor.

In addition, the battery pack interface has a mechanical interface, which is in particular designed to produce a non-positive and / or positive connection with a corresponding mechanical interface of the consumer interface. Advantageously, the mechanical interface of the battery pack interface and / or the mechanical interface of the consumer interface comprises at least one fixing unit, via which the connection of the battery pack to the consumer can be releasably fixed. The fixation is preferably releasable via an actuation of an actuating element.

The first interface of the battery pack adapter may be at least partially or completely formed substantially identical to the battery pack interface. The second interface of the battery pack adapter can be configured at least partially or completely essentially identically to the consumer interface.

The damping element may be formed, for example, as a shock absorber, a liquid damper, a rubber buffer, a damping ring, a damping flange, a spring element or the like.

Furthermore, it is proposed that the battery pack adapter has a third interface which is designed for the electrical and mechanical connection of the battery pack adapter to a second battery pack. The third interface is designed in particular essentially identically to the second interface. Advantageously, thereby the operating time of the consumer can be extended by an additional battery pack. Alternatively, it is also conceivable that the third interface is designed to be different from the second interface mechanical and / or electrical connection. Advantageously, other battery packs can thus be connected to the third interface than to the second interface. Two battery packs can be connected in series or in parallel via the second and the third interface in order to advantageously optimize the high-current capability and / or the capacity of the energy supply of the battery pack system.

Furthermore, it is proposed that the housing of the battery pack adapter has at least two housing parts, wherein the damping unit is arranged between the two housing parts. Advantageously, the damping can be improved thereby. The first housing part is in particular designed to be movable relative to the second housing part, wherein the movements of the housing parts are mutually attenuated via the damping unit. Preferably, the two housing parts are at least partially movable relative to each other. Preferably, at least provided for a positive and / or positive connection of the battery adapter with the consumer or the battery pack connecting elements are designed to be movable relative to each other, wherein the relative movement is attenuated, in particular via the damping unit.

In addition, it is proposed that the first interface and the second interface are arranged in different housing parts. Furthermore, it is proposed that the first interface is designed to be relatively movable relative to the second interface. Advantageously, the interfaces can be effectively protected.

Furthermore, it is proposed that the damping element is cohesively received in or through the housing. In addition, it is proposed that the battery pack adapter is produced by means of a multi-component injection molding process, wherein a damping element arranged between the housing parts is formed of a softer and / or more flexible material than the housing parts. Advantageously, an effective damping can be realized by this measure with structurally simple means.

Furthermore, it is proposed that the damping element is positively and / or positively received in or through the housing. Advantageously, thereby a secure recording of the damping element can be realized by the housing.

In addition, it is proposed that the damping element is formed from a plastic mat. Advantageously, an efficient damping can be realized thereby. The plastic mat is formed in particular of a foam.

Furthermore, it is proposed that the damping unit has at least one damping element designed as a tension spring and / or at least one damping element designed as a compression spring. Advantageously, a special effective damping can be realized thereby.

Furthermore, the invention relates to a battery pack system comprising a consumer having a housing, wherein the housing comprises a handle, and a battery pack adapter, as described above. The handle is preferably formed as a main handle, which is not releasably secured to the consumer tool-free.

In addition, it is proposed that a main direction of the damping unit extends substantially along a longitudinal extent of the handle. Advantageously, the damping can be further improved thereby. The main direction of action extends in particular along a direction in which the damping effect of the damping unit, in particular of the damping element, is maximum. Furthermore, it is conceivable that the damping unit has different damping elements, which differ from each other in particular by their main direction of action. In addition, it is conceivable that the damping unit has different damping elements that differ from one another in terms of their damping factor or degree of damping.

Furthermore, it is proposed that the battery pack system has an encoding unit, via which the battery pack connected to the consumer can be identified. In particular, the coding unit is designed to determine a nominal capacity and / or a battery pack type. Advantageously, the battery pack and the battery pack adapter coding elements, for example in the form of coding resistors.

drawings

Further advantages emerge 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 meaningful further combinations. Reference numerals of features of different embodiments of the invention which substantially correspond to each other are given the same number and a letter characterizing the embodiment.

Show it:

1 a first embodiment of the battery pack system according to the invention;

2 a second embodiment of the battery pack system according to the invention;

3 a selection of possible consumers for a battery pack adapter according to the invention;

4 a third embodiment of the battery pack system according to the invention.

Description of the embodiments

In 1 is an inventive battery pack system 10 shown. The battery pack system 10 includes a trained as a hand tool consumer 100 , a battery pack adapter 14 and a battery pack formed as a handheld power tool battery pack 16 , The hand tool machine 12 is exemplified as a cordless screwdriver. The hand tool machine 12 has a housing 18 on which a handle 20 is arranged. The handle 20 is designed as a main handle. At the handle 20 is a power switch 22 for controlling the power tool 12 arranged. The operating switch 22 is for switching on and off the power tool 12 educated. The hand tool machine 12 has a tool holder 24 on, with which an insert tool (not shown) can be releasably connected. In the connected state, the insert tool is rotatable about a working axis 26 stored. During operation of the power tool 12 becomes torque from a drive unit comprising an electric motor 28 transferred to the insert tool. The handle 20 extends substantially perpendicular to the working axis 26 , The power supply of the power tool 12 via the battery pack 16 , The hand tool machine 12 has a consumer interface 30 on, over which the battery pack 16 tool-free with the hand tool 12 is connectable. The consumer interface 30 extends substantially parallel to the working axis 26 and perpendicular to the handle 20 ,

The battery pack 16 is exemplified as a handheld power tool battery pack. The battery pack 16 has a housing 32 on, which can be designed in several parts. In the case 32 of the battery pack 16 At least one battery cell (not shown) is added, the battery pack 16 in this embodiment, for example, has ten parallel or serially connected battery cells. In the case 32 of the battery pack 16 is an electronics (not shown) arranged. The electronics include a printed circuit board (not shown). On the circuit board are electrical contact elements 34 for charging and discharging the battery pack 16 are provided, and further contact elements 36 for transmitting status information, such as the coding, the state of charge or the temperature of the battery pack 16 , to the hand tool 12 are formed, arranged. The electrical contact elements 34 . 36 are connected to the electronics and the battery cells. The electrical contact elements 34 and the other contact elements 36 are a battery pack interface 38 assigned. The consumer interface 30 the hand tool also has electrical contact elements 35 on that to the contact elements 34 . 36 the battery pack interface 38 correspond.

The battery pack interface 38 is for the mechanical and electrical connection of the battery pack 16 with the hand tool 12 educated. The battery pack 16 is exemplified as Schiebeakkupack. When attaching the battery pack 16 become a means of admission 42 , z. B. guide and guide ribs, the consumer interface 30 for receiving corresponding securing elements 43 the battery pack interface 38 engaged with these, the battery pack 16 by means of a relative movement 40 of the battery pack 16 to the hand tool 12 along the receiving means 42 introduced and the security elements 43 of the battery pack 16 into the corresponding consumer interface 30 the hand tool machine 12 is inserted. The relative movement 40 for connecting the battery pack 16 is opposite to a relative movement to release the battery pack 16 ,

Furthermore, the battery pack system 10 a fuser 44 on, for fixing the battery pack 16 on the hand tool 12 is trained. The fuser 44 has two mutually corresponding fixing elements 45 . 46 on, with a fixing element 46 the consumer interface 30 and the other fixing element 45 the battery pack interface 38 assigned. The fixing element 45 the battery pack interface 38 is designed as a spring-loaded locking element, which is pivotable in the housing 32 of the battery pack 16 is stored. The locking is done by inserting the battery pack 16 along the relative movement 40 , wherein the fixing element 45 at the end of the relative movement in an undercut position in the formed as a groove fixing 46 the consumer interface 30 locks. To release the fixation, the fixing unit 44 a trained as a button actuator 48 on that with the fixing element 45 is movably coupled. By an actuation of the actuating element 48 the fixing element moves 45 in the case 32 of the battery pack 16 into it, and the fixation between the battery pack 16 and the hand tool 12 will be solved, so the battery pack 16 can be solved.

The battery pack adapter 14 has a first interface in this embodiment 50 , a second interface 52 and a third interface 54 on. The first interface 50 of the battery pack adapter 14 essentially corresponds to the battery pack interface 38 of the battery pack 16 so that the battery pack adapter 14 over the first interface 50 electrically and mechanically with the hand tool 12 is connectable. In particular, the first interface 50 of the battery pack adapter 14 fuse elements 43 for the positive connection of the battery pack 16 with the hand tool 12 on. Furthermore, the first interface points 50 electrical contact elements 34 . 36 and the fixing element 45 and the actuator 48 the fuser unit 44 on.

The second and the third interface 52 . 54 of the battery pack adapter 14 essentially correspond to the consumer interface 30 the hand tool machine 12 , The second and the third interface 52 . 54 of the battery pack adapter 14 each have recording means 42 for mechanical attachment of battery packs 16 on the battery pack adapter 14 , electrical contact elements 35 and a fixing element 46 on. The electrical contact elements 35 of the battery pack adapter 14 are with the electrical contact elements 34 . 36 of the battery pack adapter 14 connected, wherein the connection is realized for example via a transition unit, not shown. The transition unit may include bus bars or cables that are movable and / or flexible in the battery pack adapter 14 are included. The battery pack adapter 14 has a housing 58 on where the interfaces 50 . 52 . 54 are arranged. The second interface 52 is the third interface 54 arranged opposite. The housing 58 of the battery pack adapter 16 includes several housing parts 51 . 53 . 55 , wherein each housing part 51 . 53 . 55 an interface 50 . 52 . 54 assigned.

The battery pack adapter 14 also has a damping element 62 comprehensive damping unit 60 which is designed to damp vibrations and / or shocks. Due to the vibration-damping properties of the damping unit 60 can advantageously wear the battery pack system 10 in the area of the consumer interface 30 , the battery pack interface 38 and the interface 50 . 52 . 54 be effectively reduced, which is advantageous to extend the life of the battery pack system 10 leads. The damping unit 60 is in particular between the interfaces 50 . 52 . 54 of the battery pack adapter 16 arranged. The housing 58 of the battery pack adapter 16 is exemplified by means of a multi-component injection molding process. Here are the housing parts 51 . 53 . 55 preferably made of the same material, preferably a plastic. In this embodiment, the damping element 62 formed as a plastic part, which is also produced by the multi-component injection molding process. To a damping effect by the damping element 62 to achieve is the damping element 62 preferably formed of a softer and more flexible plastic than the housing parts 50 . 52 . 54 , Preferably, the damping element 62 formed of a thermoplastic elastomer.

In 2 is an alternative embodiment of the battery pack system according to the invention 10a shown. The hand tool machine 12a is formed in this embodiment as a cordless rotary hammer. Analogous to the cordless screwdriver described above, the cordless rotary hammer has a housing 18a , a tool holder 24a that have a drive unit 28a is driven, and one an operation switch 22a comprehensive designed as a main handle handle 20a on. In addition, the hand tool indicates 12a an additional handle 21a on, the tool-free detachable on the housing 18a the hand tool machine 12a is attached.

The hand tool machine 12a has a consumer interface 30a on, about which the hand tool machine 12a with the battery pack interface 38a of the battery pack 16a electrically and mechanically connectable. The consumer interface 30a and the battery pack interface 38a are essentially identical to the previously described consumer interface 30 or battery pack interface 38 educated.

The battery pack adapter 14a includes a housing 58a , which consists of two housing parts 51a . 53 is trained. The battery pack adapter 14a has a first interface 50a for connection to the power tool 12a and a second interface 52a to connect to the battery pack 16a on. The first interface 50a This corresponds essentially to the battery pack interface 38a , the second interface 52a essentially corresponds to the consumer interface 30a , Every interface 50a . 52a is in each case a housing parts 51a . 53a assigned. The first interface 50a and the second interface 52 are arranged opposite each other. Between the first interface 50a and the second interface 52a is a damping unit 60a arranged. The damping unit comprises by way of example four damping elements 62a as tension springs 64a and compression springs 66a are formed, which are preferably arranged in parallel in a row. In this embodiment, the compression springs 66a from the tension springs 64a arranged enclosed. However, it is also conceivable that the springs 64a . 66a are arranged alternately. The damping elements 62a are arranged such that their main direction of action substantially the longitudinal extension of the handle 20a equivalent. Because of the inertia of the battery pack 16a in case of a fall of the battery pack system 10a on a floor the battery pack system 10a often on the bottom of the battery pack 16a falls, can by such an arrangement of the springs 64a . 66a the consumer interface 30a , the battery pack interface 38a and the interfaces 50a . 52a be effectively protected from damage.

The hand tool machine 12a of the battery pack system 10a can directly through the battery pack 16a or indirectly via the battery pack adapter 14a through the battery pack 16a be energized. The battery pack adapter 14a is thus designed as an optional accessory which the battery pack system 10a extended by a vibration damping.

However, it is also conceivable that the battery pack 16 having an unillustrated coding element. About the coding element can by an electronic, not shown, the power tool 12a to determine which type is the battery pack 16a and based on the determined type, the operation of the power tool 12a with the battery pack 14a be released or blocked. It is conceivable that the battery pack adapter 16 also has an encoding element. Preferably, the electronics of the hand tool determines 12a based on the coding element of the battery pack 16a and the coding element of the battery pack adapter 14a whether the battery pack system 10a is in an allowable configuration and the operation of the power tool 12a can be released. In particular, it is conceivable that battery packs are secured by the additional battery pack adapter such that the system of battery pack and hand tool significantly increased robustness in shock or shock-like force effects, such as when dropping the power tool has.

In 3 is an example of a variety of diverse consumers 100 represented over the battery pack adapter according to the invention 14a with a battery pack 16a are connectable. The consumer 100 can as an impact wrench 102 or a percussion drill, an angle grinder 106 , a construction site radio 108 , a polishing machine 110 , a drywall screwdriver 112 , a jigsaw 114 , a saber saw 116 , an industrial vacuum cleaner 118 or hand vacuum, a milling machine 120 , a hedge trimmer 122 , a lawnmower 124 or as a trimmer 126 be educated.

In 4 is another alternative embodiment of the battery pack adapter 16b shown. The damping unit 60b of the battery pack adapter 16b has, in contrast to the embodiments according to the 2 and 3 additional damping elements 68b on. In particular, the first housing part 51b and the second housing part 52b in each case at least one additional damping element 68b on. It is also conceivable that only one of the housing parts 51b . 53b an additional damping element 68b having. The additional damping element 68b is advantageously arranged such that in the connected state, the damping element 68b on the housing 18b the hand tool machine 12b and / or on the housing 58b of the battery pack 14b is applied. The additional damping elements 68b are in particular arranged such that a main direction of action, in which the additional damping elements 68b dampening effect, from a main direction of the damping elements 62b different. In this embodiment, the main direction of the damping elements extends 62b due to the orientation of the feathers 64 . 66 essentially along the longitudinal extent of the handle 20b , The main direction of the additional damping elements 68b extends due to the arrangement of the additional damping elements 68 between the hand tool machine 12b and the battery pack adapter 16b essentially along the working axis 26b the hand tool machine 12b , Advantageously, by such an arrangement of the additional damping elements 68b translational vibrations that occur during operation of the hammer drill are effectively damped.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 2307174 B1 [0001]

Claims (13)

Battery pack adapter for a battery pack system, with a housing ( 32 ), with a first interface ( 50 ) for the electrical and mechanical connection of the battery pack adapter ( 14 ) with a consumer ( 100 ) and with a second interface ( 52 ) for the electrical and mechanical connection of the battery pack adapter ( 14 ) with a first battery pack ( 16 ), characterized in that the battery pack adapter ( 14 ) a damping element ( 62 ) comprehensive damping unit ( 60 ) for damping vibrations. Battery pack adapter according to claim 1, characterized in that the battery pack adapter ( 14 ) a third interface ( 54 ), which for the electrical and mechanical connection of the battery pack adapter ( 14 ) with a second battery pack ( 16 ) is trained. Battery pack adapter according to one of the preceding claims, characterized in that the housing ( 32 ) at least two housing parts ( 51 . 53 ), wherein the damping unit ( 60 ) between the two housing parts ( 51 . 53 ) is arranged. Battery pack adapter according to one of the preceding claims, characterized in that the first interface ( 50 ) and the second interface ( 52 ) in different housing parts ( 51 . 53 ) are arranged. Battery pack adapter according to one of the preceding claims, characterized in that the first interface ( 50 ) relatively movable to the second interface ( 52 ) is trained. Battery pack adapter according to one of the preceding claims, characterized in that the damping element ( 62 ) cohesively in or through the housing ( 32 ) is recorded Battery pack adapter according to one of claims 3 to 6, characterized in that the battery pack adapter ( 14 ) is produced by means of a multi-component injection molding process, wherein a between the housing parts ( 51 . 53 ) arranged damping element ( 62 ) is formed of a softer and / or more flexible material than the housing parts ( 51 . 53 ). Battery pack adapter according to one of the preceding claims, characterized in that the damping element ( 62 ) positively and / or positively in or through the housing ( 32 ) is recorded. Battery pack adapter according to one of the preceding claims, characterized in that the damping element ( 62 ) is formed of a plastic mat. Battery pack adapter according to one of the preceding claims, characterized in that the damping unit ( 60a ) at least one as a tension spring ( 64a ) formed damping element ( 62a ) and / or at least one as a compression spring ( 66a ) formed damping element ( 62a ) having. Battery pack system from a housing ( 18 ) ( 100 ), the housing ( 18 ) a handle ( 20 ) and a battery pack adapter ( 14 ) according to any one of the preceding claims. Battery pack system according to claim 11, characterized in that a main direction of the damping unit ( 60 ) substantially along a longitudinal extent of the handle ( 20 ). Battery pack system according to claim 11 or 12, characterized in that the battery pack system ( 10 ) has an encoding unit, wherein the battery pack adapter ( 14 ) comprises at least one coding element.

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