DE102010039363A1 - Battery unit for electrical hand tool, has inlet opening with opening unit for supplying cool air during charging process of rechargeable battery cell in open position, where inlet opening is closed in closing position - Google Patents

Abstract

The unit (10) has an inlet opening for cool air to cool a rechargeable battery cell, and an outlet opening (16) for the cool air. The inlet opening comprises an opening unit (20) for supplying the cool air during a charging process of the rechargeable battery cell in an open position. The opening unit comprises a closing position, and the inlet opening is closed in the closing position. The opening unit is formed as a flexible lip, which is closed in an unloaded position of the inlet opening. The unit and a charging device form a charging system. Independent claims are also included for the following: (1) a charging device for a battery unit (2) a system comprising the battery unit.

Description

State of the art

The invention relates to a rechargeable battery unit according to the preamble of claim 1. Furthermore, the invention relates to a charging device for a rechargeable battery unit and a system consisting of an accumulator unit and a charging device.

An accumulator according to the preamble of claim 1 is known from EP 1 309 019 A2 known. The known accumulator unit has a housing for receiving at least one battery cell, wherein the housing for charging the battery cells is connectable to a charging device. For cooling the at least one rechargeable battery cell during the charging process by means of cooling air, the housing of the rechargeable battery unit has an inlet opening for the cooling air. Further, an outlet opening for the cooling air is provided, through which the cooling air can flow, after it has flowed through the housing and thereby has absorbed heat generated by the at least one battery cell. The inlet opening for the cooling air is formed on the housing as a slot or opening which is accessible from the outside during the periods in which the accumulator unit is not connected to the charging device. This makes it possible for foreign objects or dirt to get into the interior of the accumulator unit and thus to lead to malfunctions of either the accumulator unit or else an electrical device connected to the accumulator unit, for example an electric hand tool.

Disclosure of the invention

Based on the illustrated prior art, the invention has the object, a battery unit according to the preamble of claim 1 such that it is designed in particular protected outside the charger so that no dirt or similar foreign body can penetrate into the housing. This object is achieved in an accumulator unit with the features of claim 1. The invention is based on the idea to provide the at least one inlet opening with an opening device which is open in particular during the charging of the at least one battery cell in the charging device to allow the entry of cooling air into the housing of the accumulator. On the other hand, if the accumulator unit is not in operative connection with the charging device, then the at least one inlet opening can be closed by means of the opening device, so that the entry of dirt, particles or the like into the housing of the accumulator unit is reliably prevented.

Advantageous developments of the accumulator unit according to the invention are specified in the subclaims. All combinations of at least two of the features disclosed in the claims, the description and / or the figures fall within the scope of the invention.

In a first structural embodiment of the invention, it is provided that the opening device has at least one pivotable or displaceable flap. Such a design of the opening device allows a relatively simple and mechanically robust construction of the opening device.

In a particularly preferred embodiment, it is hereby provided that the flap by a separate, not the accumulator unit associated component, in particular a component of a charging device for the accumulator, by mechanical pressure to open and that the flap by means of at least one spring element in one of the separate component unloaded state spent in its closed position. It is thus created the possibility that the opening device is automatically opened by the separate component when docking or when connecting to a charger, without requiring an operator to intervene manually. In particular, by the spring element, an automatic closure of the flap is further made possible in its closed position when the accumulator unit is not in operative connection with the charging device.

In an alternative to a flap structural design of the invention, it is provided that the opening device is designed as at least one flexible lip which closes the at least one inlet opening in an unloaded position. Such a design has the advantage that for closing the at least one inlet opening no additional, separate components are required, so that a particularly simple construction of the opening device can be realized. In addition, such a structure of the opening device is additionally characterized by a relatively small footprint of the opening device by the missing separate components.

In a particularly preferred embodiment of the invention, it is provided that a plurality of cooperating lips are provided in an opening region by a separate, not the accumulator unit associated component, in particular a component of a charging device for the accumulator, by mechanical pressure or by the Air pressure of the cooling air are open. Again, analogous to a training with a flap, an automatic Opening the lips during the charging mode of the accumulator allows without additional intervention by an operator are required.

In a further, alternative embodiment to an embodiment of the opening device as a flap or lip, it is proposed that the opening device is designed as a membrane which, in the presence of an overpressure of the cooling air, forms a passage for the cooling air. Such a design has the particular advantage that the charging device requires in particular no separate components that are required for opening the at least one inlet opening.

The invention also encompasses a charging device for a rechargeable battery unit according to the invention, wherein according to the invention provision is made for the charging device to have a component which, in the charging mode, holds the opening device of the rechargeable battery unit in its open position. Such a design of the charging device has the advantage that no additional components for opening the opening device are required on the accumulator itself.

The invention additionally comprises a system comprising an accumulator unit and a charging device, wherein the accumulator unit is equipped with an opening device and the charging device conveys cooling air into the region of the inlet opening.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawing.

This shows in:

1 a perspective view of a first accumulator according to the invention,

2 a portion of the accumulator according to 1 with open inlet opening for cooling air,

3 a perspective view of a second accumulator unit according to the invention,

4 a portion of the accumulator according to 3 , also in perspective view, with partially opened inlet opening for cooling air and

5 a third accumulator according to the invention, also in a perspective view.

The same components or components with the same function are provided in the figures with the same reference numerals.

In the 1 and 2 is a first accumulator unit according to the invention 10 shown. The accumulator unit 10 serves in particular as a power supply for a portable electric hand tool, z. As a percussion drill, operable with accessories base unit or the like. Furthermore, the accumulator unit 10 on the (not shown) electric hand tool exchangeable fastened to charge the accumulator unit 10 this in operative connection with a charging device 100 to arrange. The particular mains-powered charging device 100 serves to empty a rechargeable batteries of the accumulator unit 10 recharge.

The accumulator unit 10 has a housing 11 on, which consists in particular of plastic and is designed as an injection molded part. On top of the case 11 can be seen in the longitudinal direction of the housing 11 running guide rails 12 . 13 , which form-fitting with at the charging device 100 arranged guide rails 101 . 102 interact. Here, the accumulator unit 10 for contacting the charging device 100 in the direction of the arrow 103 in the charging device 100 introduced or inserted. When completely in the charging device 100 introduced accumulator unit 10 contact in the charging device 100 arranged, unrecognizable electrical contacts mating contacts on the Akkumulatoreinheit 10 , so that an electrical connection between in the housing 11 the accumulator unit 10 arranged battery cells and the charger 100 is made. The accumulator unit 10 and the charging device 100 form a charging system.

The housing 11 also has on its upper side a range of eight in the embodiment, juxtaposed, slot-shaped inlet openings 14 for cooling air on ( 2 ). About the entrance openings 14 reaches cooling air, in particular via a in the charging device 100 arranged cooling device is supplied in the form of a cooling fan, in the interior of the housing 11 to those in the case 11 to store arranged battery cells during the charging process or to absorb their radiated heat. The through the housing 11 flowing cooling air passes by way of example on the side of the housing 11 arranged, not recognizable in detail outlet openings 16 back out of the case 11 out.

According to the invention, it is provided that the accumulator unit 10 in the area of the inlet openings 14 with an opening device 20 Is provided. The opening device 20 includes in the in the 1 and 2 illustrated first embodiment of the invention in the direction of the arrows 21 . 22 horizontally movable flap 23 , The arrangement or design of the flap 23 is such that this during the in the 2 charging processes of the battery cells the inlets 14 of the housing 11 releases to allow the entry of cooling air. This condition is in the 2 illustrated, for the sake of clarity, the accumulator unit 10 from the charging device 100 are shown spaced apart. In contrast, the flap 23 in a state in which the accumulator unit 10 from the charging device 100 is separated, closed. This covers the flap 23 the inlet openings 14 according to the 1 from.

It is preferably provided that the flap 23 in operative connection with, for example, two, at the lateral edge regions of the flap 23 inside the case 11 located spring elements 24 . 25 is arranged. The spring elements 24 . 25 load the flap 23 with spring force such that when no external forces on the flap 23 act, shut up 23 in her in the 1 shown closed position spent.

Opening the flap 23 done by a separate, from the accumulator unit 10 separate component 30 , The component 30 is hereby preferably in the charging device 100 arranged or integrated. The component 30 is according to the 2 by way of example as a wedge-shaped opening body 31 formed when inserting the accumulator unit 10 in the charging device 100 in the direction of the arrow 103 with the top of the flap 23 comes in frictional connection while the flap 23 when inserting the accumulator unit 10 in the open position against the spring force of the spring elements 24 . 25 opens.

In a modification of the illustrated embodiment, it is of course also conceivable, the flap 23 not in a horizontal plane on the housing 11 slidably arrange, but the flap 23 as in an axis pivotable flap 23 train. In this case, the component can 30 be an opening pin in the charging device 100 is arranged.

In the 3 and 4 is a second accumulator unit according to the invention 10a shown. The accumulator unit 10a points in the area of the inlet opening 34 as opening device 20a two elongated, on opposite sides of the housing 11 articulated, elastic lips 35 . 36 on. The lips 35 . 36 may in particular consist of plastic or a rubber-like material. In the unloaded state according to the 3 close the lips 35 . 36 the entrance opening 34 , In the in the 4 illustrated state in which the accumulator unit 10a in operative connection with the charging device, not shown 100 is, the entrance opening 34 at least partially open. This is done in analogy to the accumulator unit 10 , for example, by a mechanical, of the accumulator unit 10a separate component 30 in the charging device 100 , or alone by the air pressure of the cooling air on the lips 35 . 36 is directed.

In the 5 is another accumulator unit according to the invention 10b shown. The accumulator unit 10b points to the top of the case 11 as opening device 20b a membrane 40 on. The membrane 40 covers one in the case 11 trained entrance opening 41 from. The membrane 40 can be z. B. in the form of a fabric or the like, at least the passage of cooling air from the outside into the region of the inlet opening 41 allows. In the accumulator unit 10b it is not necessary, by a separate component, the inlet opening 41 on the housing 11 to open or to open. Rather, the entry of cooling air into the housing 11 from a certain overpressure of the cooling air.

The accumulator units described so far 10 . 10a and 10b can be modified or modified in many ways without departing from the spirit of the invention. This consists in the protected arrangement of at least one inlet opening 14 . 34 . 41 in the event that the accumulator unit 10 . 10a . 10b not in operative connection with a charging device 100 located.

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 1309019 A2 [0002]

Claims (10)

Accumulator unit ( 10 ; 10a ; 10b ), with a housing receiving at least one battery cell ( 11 ), which has at least one inlet opening ( 14 ; 34 ; 41 ) for cooling air, which serves to cool the at least one battery cell and at least one outlet opening ( 16 ) for the cooling air, characterized in that the at least one inlet opening ( 14 ; 34 ; 41 ) an opening device ( 20 ; 20a ; 20b ), which is arranged for supplying the cooling air during a charging process of the at least one battery cell in an open position and that the opening device ( 20 ; 20a ; 20b ) additionally has a closed position, in which the at least one inlet opening ( 14 ; 34 ; 41 ) from the opening device ( 20 ; 20a ; 20b ) is closed. Accumulator unit according to claim 1, characterized in that the opening device ( 20 ) at least one on the housing ( 11 ) pivotally or slidably arranged flap ( 23 ) having. Accumulator unit according to claim 2, characterized in that the flap ( 23 ) by a separate, not the accumulator unit ( 10 ) associated component ( 30 ), in particular a component ( 30 ) a charging device ( 100 ) for the accumulator unit ( 10 ), is open by mechanical pressure and that the flap ( 23 ) by means of at least one spring element ( 24 . 25 ) in one of the separate component ( 30 ) Not loaded state spent in its closed position. Accumulator unit according to claim 1, characterized in that the opening device ( 20a ) as at least one flexible lip ( 35 . 36 ) is formed, which in an unloaded position, the at least one inlet opening ( 34 ) closes. Accumulator unit according to claim 4, characterized in that several interacting lips ( 35 . 36 ) are provided in an opening area by a separate, not the accumulator unit ( 10 ) associated component ( 30 ), in particular a component ( 30 ) a charging device ( 100 ) for the accumulator unit ( 10 ), by mechanical pressure or by the air pressure of the cooling air to open. Accumulator unit according to claim 1, characterized in that the opening device ( 20b ) as a membrane ( 40 ) is formed, which forms a passage for the cooling air in the presence of an overpressure of the cooling air. Charging device ( 100 ) for an accumulator unit ( 10 ; 10a ) according to one of claims 1 to 5, with a receptacle for the housing ( 11 ) of the accumulator unit ( 10 ; 10a ), wherein in a charging mode the charging device ( 100 ) is electrically contacted with the at least one battery cell, characterized in that the charging device ( 100 ) a component ( 30 ), which in the loading mode, the opening means ( 20 ; 20a ) of the accumulator unit ( 10 ; 10a ) holds in its open position. Charging device according to claim 7, characterized in that the component as a stationarily arranged body ( 31 ) is trained. Charging device according to claim 7 or 8, characterized in that a blower device for supplying cooling air into the at least one inlet opening ( 14 ; 34 ; 41 ) is provided. System consisting of an accumulator unit ( 10 ; 10a ; 10b ) and a charging device ( 100 ), wherein the accumulator unit ( 10 ; 10a ; 10b ) with an opening device ( 20 ; 20a ; 20b ) is equipped according to one of claims 1 to 6 and the charging device ( 100 ) Cooling air into the area of the inlet opening ( 14 ; 34 ; 41 ) feeds.

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