WO2009033865A1

WO2009033865A1 - Dual-module charger

Info

Publication number: WO2009033865A1
Application number: PCT/EP2008/059566
Authority: WO
Inventors: Marcin Rejman; Josef Baumgartner; Thorsten Seidel
Original assignee: Robert Bosch Gmbh
Priority date: 2007-09-06
Filing date: 2008-07-22
Publication date: 2009-03-19
Also published as: DE102007042398A1

Abstract

The invention relates to a charger for at least one chargeable battery pack, having a housing (12) comprising means (22) for receiving at least one battery pack, and at least two contact elements (23) for the power supply of the battery pack. The charger (1) consists of at least two modules (10, 20), wherein the housing (12) forms a first module (10) and the receiving means (22) and the contact elements (23) form a second module (20).

Description

description

title

TWO-MODULAR CHARGER

State of the art

The invention relates to a charger according to the preamble of claim 1.

Chargers for charging battery packs for electrical equipment, e.g. Electric hand tool machines, have a receiving shaft into which either the Wechselakkupack or the electrical device with integrated battery pack is inserted or inserted to load the battery pack. For contacting the battery pack with the charger electrical contact elements are provided in the region of the receiving shaft, which contact with mating contact elements on the battery pack to be charged. The receiving shaft with the electrical contact elements forms the charger battery pack interface. This is usually adapted so that only a certain type of battery pack can be inserted into the receiving shaft and thereby contact the electrical contact elements each other.

As a result, the charger battery pack interface is usually designed specifically for each type of charger and therefore not or only partially suitable to be used for other types of chargers. At the same time, the charger battery pack interface places high demands on dimensional accuracy and on electromechanical properties such as stability, secure contacting, freedom from backlash, reliability, dirt resistance and the like. Thus, several functions and requirements are combined on a few components of the charger battery pack interface, so that the charger battery pack interface has a high functional integration density.

Disclosure of the invention

The invention is based on a charger for at least one rechargeable battery pack with a housing, which comprises means for receiving at least one battery pack and at least two contact elements for supplying power to the battery pack. The Means for receiving a battery pack is preferably a receiving slot in which the rechargeable battery pack is inserted or inserted. Also, two or more receiving means may be provided to charge two or more battery packs simultaneously. The receiving means and the contact elements form the charger battery pack interface (hereinafter also referred to as interface).

According to the invention, the charger consists of at least two modules, wherein the housing form a first module and the receiving means and the contact elements form a second module. Accordingly, the charger battery pack interface forms an independent module. This not only has the advantage that the charger can be modularly assembled, which simplifies the installation of the charger. In addition, a universally applicable interface can be created, which can be installed in a variety of chargers. So the interface does not have to be redesigned for each type of charger. In addition, this standardizes the assembly of a wide variety of chargers, since the same installation can be used for different chargers.

In order to connect the second module to the first module, the housing preferably has a recess for receiving the second module. The second module is connectable to the first module by being inserted into the recess and attachable to the housing. The two modules can be connected to each other in a variety of ways. They may for example be screwed together or positively, e.g. be connected by means of locking elements. Also a cohesive connection by gluing, welding o.a. is possible.

In a further embodiment, the second module is designed replaceable. This means that for a charger two or more different charger battery pack interfaces are provided as modules that can be replaced by an operator of the charger. For this purpose, the first module with the second module is releasably connected.

The second module, which forms the interface, can be provided with further elements. In addition to the two electrical contact elements for power supply, the interface preferably comprises at least one further contact element, which contacts with a corresponding mating contact element of the battery pack of an inserted into the receiving means battery pack. This and other contact elements serve for example, the data transmission. The contact elements provided on the charger can be identical or different. They are each interconnected according to their function, ie voltage supply or data exchange. The contact elements may be designed as Berührkontaktelemente or as sliding contact elements. Contact contact elements and sliding contact elements are known per se from the prior art. Furthermore, the contact elements may be resilient. Spring contact elements (contact springs) are also known per se from the prior art.

Furthermore, the second module preferably comprises means for mechanical coding, which interact with corresponding means on the battery pack. For example, grooves, ribs, pins and other projections and recesses are suitable as mechanical coding means. The means for mechanical coding to prevent a battery pack is introduced into the interface of the charger, for which the charger is not suitable, for example, because the battery pack based on lithium-ion technology and the charger is designed for nickel metal hydride battery packs. Chargers are generally designed to charge a specific type of battery pack. Therefore, it is important that a battery pack can not be plugged into the charging means of the charger if the charger is not designed for the battery pack.

Furthermore, the second module preferably comprises means for guiding the battery pack in the receiving means. Guiding means cause the battery pack to be easily and properly inserted in the receiving means, e.g. a receiving shaft, is insertable. The guide means provided on the second module cooperate with corresponding means on the battery pack. Corresponding guide means may e.g. a guide rib and a guide groove. Furthermore, additional means for mechanical coupling may be provided on the second module, so that the battery pack can be safely received in the receiving means of the second module. This can be realized, for example, by corresponding mechanical coupling means on the second module and the battery pack, which mesh with one another during insertion of the battery pack into the receiving means in such a way that positive locking is effected. One of the corresponding mechanical coupling means may also be a spring-loaded latch.

In a preferred embodiment, the second module comprises at least one fan. The fan is used, for example, to cool a battery pack during the charging process. With the help of the fan, cooling air is added to a coolable battery pack that is in the charger - A -

is plugged in, blown in and blown through it. The reverse flow direction, in which cooling air flows through an inlet opening into the battery pack and is sucked through by the fan through the battery pack, is also possible. If the fan is attached to the second module, this has the advantage that the air path is considerably shorter than in the case of a charger in which the fan is accommodated at a different location in the housing. The fan is preferably attached to the underside of the receiving means, e.g. screwed.

The second module preferably further comprises at least one air inlet opening and / or one air outlet opening. Is an opening in the second module for the

Air inlet provided, the fan sucks air through this air inlet opening and blows the air through the charger and / or a coolable battery pack. For this purpose, an air outlet opening is provided in the housing of the charger and / or in the housing of the battery pack. Alternatively, an opening may be provided in the second module for the air outlet, via which the fan blows air from the inside. In this case, the housing of the charger and / or the battery pack on an air inlet opening, via which the fan sucks air from the outside. At the air inlet and / or air outlet opening of the second module, a filter or a ventilation grille or ventilation slots is preferably attached. This prevents coarse dirt and dust particles from entering the charger and possibly damaging the fan.

In a further embodiment of the charger according to the invention, the second module comprises at least one water outlet opening. The receiving means of the second module is preferably formed in the form of a recess into which the battery pack is inserted, inserted or inserted. The receiving means may also be arranged obliquely on the charger, which facilitates the insertion of the charger. The receiving means is open at the top and closed at the bottom. In the recess of the receiving means, e.g. when working outdoors, water, e.g. Condensation, rainwater, accumulate. Water in the receiving means is undesirable since the electrical contact elements are located on the receiving means. With the help of Wasserauslassöffnungen in the second module, the water can drain.

In a preferred embodiment, the contact elements on an insulating means. As insulating means, an insulating collar and / or a contact base insulation may be suitable. The insulating means are provided in particular at the foot of the electrical contact elements. If water accumulates in the receiving means, the insulating means prevent the electrical contact elements come into contact with water, at least as long as only a small amount of water accumulates in the receiving means.

The invention will be explained in more detail with reference to the accompanying drawings. Show it

Figure 1 shows an embodiment of a charger according to the invention in perspective

view

Figure 2 is the first module of the charger of Figure 1 in a perspective view Figure 3a shows the second module of the charger of Figure 1 in a perspective view from above Figure 3b, the second module of the charger of Figure 1 in a perspective view from below.

In Fig. 1, an embodiment of a charger 1 according to the invention for a rechargeable battery pack for a power tool is shown in perspective. The charger 1 has a housing 12 in which the electronic components (not shown) of the charger 1 are housed. The charger 1 further comprises means 22 for receiving a battery pack (not shown) in the form of a receiving shaft. The receiving means 22 is formed by a recess into which the battery pack is inserted. The receiving means 22 is arranged obliquely on the housing 12 of the charger 1 according to FIG. 1. It is open at the top and closed at the bottom so that the battery pack can be inserted from the top. At the lower end of the receiving means 22 electrical contact elements 23, 24 are arranged. Two contact elements 23 serve the power supply. Two further contact elements 24 are provided for the data exchange between charger and battery pack. If a battery pack is inserted into the receiving means 22, the contact elements 23, 24 contact corresponding contact elements of the battery pack. The receiving means 22 and the contact elements 23, 24 form the charger battery pack interface.

The charger 1 consists of at least two modules, wherein the housing 12, a first module 10 and the receiving means 22 and the contact elements 23, 24 form a second module 20. The charger battery pack interface thus forms an independent module 20.

2, the first module 10 is shown. In order to connect the second module 20 to the first module 10, the housing 12 has a recess 13 for receiving the second Module 20 on. During assembly of the charger 1, the second module 20 is inserted into the recess 13 of the first module 10 and screwed thereto. For this purpose, the second module 20 screwed eyelets 25 (Fig. 3a). In the illustrated embodiment, the housing 12 on the longitudinal sides of the recess 13 on means 14 for guiding the battery pack. The running as ribs guide 14 engage in corresponding grooves of the battery pack, so that the battery pack can be safely inserted into the receiving means 22. Alternatively, these guide means may also be attached to the second module (not shown).

3a shows the second module 20 in perspective from above, so that the side of the second module 20 can be seen, which faces outward in the mounted state. In contrast, Fig. 3b shows the second module 20 in perspective from below, wherein the side of the second module 20 can be seen, which in the mounted state has inwardly into the interior of the housing 12.

In addition to the receiving means 22 and the contact elements 23, 24, the second module is provided with a means 26 for mechanical coding. The coding means 26 is formed in the illustrated embodiment as a square pin. When introducing the battery pack into the receiving means 22, the coding means 26 cooperates with a corresponding means on the battery pack. Only if the rechargeable battery pack has a corresponding means, the battery pack can be properly introduced into the receiving means. This prevents that a battery pack is introduced into the receiving means, which is not suitable to be charged by the charger.

The second module 20 also has a fan 27 and an air inlet opening or an air outlet opening 28 in the illustrated embodiment. The fan 27 serves to cool a coolable battery pack during the charging process and to cool the electronic components of the charger 1. With the help of the fan cooling air is blown into a coolable battery pack, which is inserted into the receiving means 22, and blown through it. The fan 27 is attached to the bottom 29 of the receiving means 22, for example screwed. At the air inlet or air outlet opening 28, a ventilation grille 30 is attached. This prevents coarse dirt and dust particles from entering the charger 1 and possibly damaging the fan 27. Furthermore, two water outlet openings 31 are provided on the second module. If water accumulates at the lower end of the receiving means 22, it can flow off via the water outlet openings 31.

In Fig. 3a can be clearly seen that the electrical contact elements 23, 24 have insulating means 32. At the foot of the electrical contact elements 23, 24 are made of an electrically non-conductive material, in particular made of plastic, insulating collar and a contact base insulation as insulating means 32. If water accumulates in the receiving means 22, the insulating means 32 prevent the electrical contact elements 23, 24 from coming into contact with water.

Claims

claims

Charger for at least one rechargeable battery pack with a housing (12), which means (22) for receiving at least one battery pack and at least two contact elements (23) for supplying power to the battery pack, characterized in that the charger (1) of at least two Modules (10, 20), wherein the housing (12) a first module (10) and the receiving means (22) and the contact elements (23) form a second module (20).

2. Battery charger according to claim 1, characterized in that the housing (12) has a recess (13) for receiving the second module (20).

3. Charger according to one of the preceding claims, characterized in that the second module (20) is designed to be interchangeable.

4. Charger according to one of the preceding claims, characterized in that the second module (20) comprises at least one further contact element (24).

5. Battery charger according to one of the preceding claims, characterized in that the second module (20) comprises means (26) for mechanical coding.

6. Battery charger according to one of the preceding claims, characterized in that the second module (20) comprises means for guiding the battery pack in the receiving means.

7. Charger according to one of the preceding claims, characterized in that the second module (20) comprises at least one fan (27).

8. Charger according to one of the preceding claims, characterized in that the second module (20) comprises at least one air inlet opening and / or an air outlet opening (28).

9. Charger according to one of the preceding claims, characterized in that the second module (20) comprises at least one water outlet opening (31).

10. Battery charger according to one of the preceding claims, characterized in that the contact elements (23, 24) have an insulating means (32).