DE20318568U1 - Mobile appts. battery recharger for two different types of rechargeable battery packs, i.e. first battery pack with two current terminals, - Google Patents

Abstract

The battery recharger is intended for first type of battery pack with two current terminals, and second type of battery pack with current connector of plug and cable type. It contains a housing with two sockets for the two battery packs respectively.The first socket has contact points for terminals of first pack type, while the second socket contains contact points for plug and cable connector. The recharger contains AC connector, a circuit board with two DC circuit and switch for activating one of the two circuits, and thus respective socket contact points.

Description

Field of the Invention

The present invention relates to battery Chargers and especially battery chargers for recharging battery packs.

background the invention

Batteries are commonly used around electrical devices to supply with electricity. Batteries are particularly convenient in the supply of power to portable electrical devices, including mobile phones, Radios / CD players and toys including remote controlled toys. A particular disadvantage of battery-powered power supply is that batteries have a limited lifespan during the they can supply electricity. If the battery is exhausted, it can be disposed of and be replaced by a new battery. The disposal of discharged batteries is harmful to the environment and a wasteful use of resources, which is why instead of batteries for Single use often rechargeable batteries such as Nickel-cadmium batteries are used. Rechargeable batteries can discharged and repeatedly loaded to increase their useful life extend.

Require rechargeable batteries regular charging, to be reliable Maintain power supply. If the charge is a rechargeable Battery essentially exhausted the device is removed removed, which supplies them with electrical power, and inserted into a battery charger. Batteries come in a wide range of sizes and shapes to be varied To fit uses. Typically the size corresponds to the battery the amount of electrical current that the battery feeds you electrically Can feed device.

Battery packs contain a plurality of battery cells that are connected in series. The The number of cells in a pack determines the voltage of the battery pack. Battery packs come in a variety of forms including battery packs of the cartridge type, in which the plurality of battery cells in one casing is included, and shrink-wrapped battery packs where the Plurality of battery cells using shrink wrap in a desired one Design is united. There are such battery packs in a range of shapes and sizes by the number of battery cells contained in the battery pack and the way in which they are united, are determined. Also included different types of battery packs different means for contact with the device that supply them with electricity, and a battery charger. Such Battery packs are used to power remote-controlled cars and the like are used.

1A is a top view of a shrink-wrapped battery pack 100 which in this case has four battery cells 102 contains by shrink wrapping 104 are united. Contact between the shrink-wrapped battery pack and the device that is powered, or a battery charger, is in the form of a connector 110 type with plug 106 and cables 108 provided. 1B shows the shrink-wrapped battery pack 100 of 1A as seen from one end. 2 is a perspective view of a battery pack 200 of the cartridge type, in which the plurality of battery cells in one housing 202 is included. Contact between the battery pack 200 of the cartridge type and the device that is powered, or a battery charger is in the form of connectors 204 on an outer surface of the housing 202 provided.

While it battery packs in a wide range of shapes, sizes and Designs out there are most for charging battery packs suitable battery chargers designed to accommodate only a single type of battery pack. That is, typically only one battery pack of a certain type fits in a socket in the battery charger, the connections for electrical connection to the battery pack to be charged.

Short presentation the invention

It is a task of the present Invention, a battery charger to provide more than one type of battery pack to record its charge.

One embodiment of the present invention provides a battery charger for charging two different types of rechargeable battery packs. A first type of battery pack has two power connections, and a second type of battery pack has a power connector-type connector. The battery charger has a housing. A first base for receiving the first type of battery pack is provided in the housing, the first base containing contact points for electrical connection of the connections of the first type of battery pack to the battery charger. A second socket in the housing contains contact points for electrical connection of the connector-type connector and cable of the second type of battery pack to the battery charger. The battery charger also includes AC connectors for connecting the battery charger to an AC supply output. The battery charger also includes a circuit board with alternative first and second DC circuits to power the battery pack and a switch to turn one of the circuits on. If the first type of battery pack in When the first socket is inserted, the switch turns on the first DC circuit to charge the first type of battery pack. If no first type battery pack is inserted in the first socket, the switch turns on the second DC circuit to charge the second type of battery pack by connecting to the second socket.

In one form of the invention second type of battery pack can be inserted into the first socket, however without causing the switch to open the first DC circuit turns on so the second DC circuit through the switch remains switched on.

An advantage of the invention is that the battery charger is designed to connect more than one type of electrical connection Allow battery pack to charge.

Another advantage of an embodiment of the The invention is that a base of the battery charger is designed is to accommodate more than one type of battery pack.

Another advantage of an embodiment of the The invention is that the contact points in the first base of the battery charger are not Part of the circuit is when the second type of battery pack is in it is recorded, thereby preventing the second type of Battery pack is short-circuited.

Short description of the drawings

A more complete understanding of the allow available information based on the following detailed description and examples the attached Drawings in which:

1A is a top view of a shrink-wrapped battery pack.

1B is the shrink-wrapped battery pack from 1A as seen from the side.

2 Fig. 3 is a perspective view of a cartridge type battery pack.

3A is a top view of the battery charger.

3B is a front view of the battery charger of 3A ,

3C is a side view of the battery charger of 3A ,

3D is a rear view of the battery charger of 3A ,

3E is another side view of the battery charger of FIG 3A ,

3F is a view of the battery charger of 3A from underneath.

4A 10 is a perspective view of the battery charger of FIG 3A from above.

4B 10 is a perspective view of the battery charger of FIG 3A from underneath.

5A is a side view of the battery charger of 3A which shows a design of the internal mechanisms of the battery charger when the first type of battery pack is not inserted in the first socket.

5B is a side view of the battery charger of 3A which shows a design of the internal mechanisms of the battery charger when the first type of battery pack is inserted in the first socket.

6 10 is a perspective view of the battery charger of FIG 3A with the first type of battery pack inserted from the side.

7 10 is a perspective view of the battery charger of FIG 3A with the second type of battery pack inserted from the side.

8A is a simplified sketch of the design of a circuit board of the battery charger, showing a switch not actuated.

8B is a simplified sketch of the design of a circuit board of the battery charger, showing an actuated switch.

9A is a simple circuit diagram showing the circuit operated when the second type of battery pack is connected to the battery charger.

9B is a simple circuit diagram showing the circuit operated when the first type of battery pack is connected to the battery charger.

detailed Description of the embodiments

3A is a top view of the battery charger 300 a preferred embodiment of the present invention. The battery charger 300 is suitable for charging two different types of rechargeable battery packs. A first type of battery pack 200 with the battery charger 300 can be charged, has two power connections 204 and a switch actuator 206 on. An example of the first type of battery pack is the cartridge type battery pack (as in 2 shown). A second type of battery pack 100 with the battery charger 300 has a connector 110 of type with plug and cable. An example of the second type of battery pack 100 is the battery pack of the type with shrink packaging (as in 1A and 1B shown).

The battery charger 300 has a housing 302 to include the internal mechanisms. The battery charger 300 also contains AC connectors 304 to connect the battery charger 300 with an AC power output.

3B is a front view of the battery charger 300 of 3A , In the housing 302 is a first base 306 to accommodate the first type of battery pack 200 intended. The first base 306 contains contact points 308 for electrical connection of the connections 204 of the first type of battery pack 200 with the battery charger 300 to care. In the housing 302 is a second base 310 provided which second base 310 contact points 312 for electrical connection of the connector 110 type with connector and cable of the second type of battery pack 100 with the battery charger 300 contains. The battery charger 300 also includes a switch 314 to switch on one of alternative DC circuits to power the battery packs. The desk 314 is operated when the first type of battery pack 200 in the first base 306 is included. One on the first type of battery pack 200 provided switch actuator 206 is used at the switch 314 to attack, thereby moving it, thereby turning on a first DC circuit for charging the first type of battery pack. When the first DC circuit is turned on in this manner, a second DC circuit is for charging the second type of battery pack 100 open. That is, between the contact points 312 in the second socket there is an interruption in the second DC circuit.

The switch actuator 206 can also position the battery pack 200 in the battery charger 300 or the electrical device to be powered. Remove the first type of battery pack 200 from the first base 306 causes the switch 314 returns to an unactuated position. When at the counter 314 is not attacked to turn on the first DC circuit, the second DC circuit is turned on to the second type of battery pack 100 by connecting to the second base 312 to be able to load.

3C is a side view of the battery charger 300 of 3A and shows the first and second sockets 306 . 310 and the AC connectors 304 as seen from the side.

3D is a rear view of the battery charger 300 of 3A and shows the AC connectors 304 as seen from behind.

3E is another side view of the battery charger 300 of 3A and shows the first base 306 and the AC connectors 304 as seen from the side.

3F is a view of the battery charger 300 of 3A from below and shows the AC connector 304 as seen from below.

4A Fig. 3 is a perspective view of the battery charger 400 of 3A , The first and second bases are shown 402 . 404 which is a means of connecting the battery packs 100 . 20 with the battery charger 400 provide. Also shown is a light emitting diode (LED) 406 that emits a signal in the form of light when the battery charger 400 a battery pack 100 . 200 powered.

4B Fig. 3 is a perspective view of the battery charger 400 of 3A from underneath. The AC connectors are shown 408 which provide means for connection to an AC power source.

5A is a side view of the battery charger 500 of 3A and shows a design of the internal mechanisms of the battery charger 500 when the battery pack 502 of the cartridge type not in the base 510 is used. The battery charger 500 is designed to accommodate two different types of battery pack for charging. A type of battery pack 502 that is for use with the battery charger 500 suitable for the present invention has two power connections 504 and a switch actuator 506 on. A second type of battery pack 100 (please refer 1A and 1B ) has a connector 110 of type with plug and cable. The battery charger 500 has a housing 508 , The housing 508 has a first base 510 in the housing to accommodate the first type of battery pack 502 on where at the first socket 510 contact points 512 for electrical connection of the connections 504 of the first type of battery pack 502 with the battery charger 500 contains.

The battery charger 500 contains AC connectors 514 to connect the battery charger 500 with an AC power output. The AC connectors 514 can take the form of a conventional plug for receptacle in a socket for connection to an AC power supply.

The battery charger 500 also contains a printed circuit board 516 with alternative first and second DC circuits to power the battery pack 500 , A switch 518 serves to switch on one of the circuits. The circuits contain a series of conductive metal plates 520 to 528 that on the circuit board 516 are arranged so that connections between the metal plates 520 to 528 can be opened and closed.

It is now going on 5B Reference that is a side view of the battery charger 500 is the first type of battery pack described above 502 for loading into the first socket 510 is used. As in 5A the internal mechanisms are shown. In the embodiment shown this takes the first type of battery pack 502 provided switch actuator 506 the shape of an L-shaped link.

5B shows more clearly how the switch 518 is operated when the first base 510 the first type of battery pack 502 receives. The L-shaped link 506 reaches for the switch 518 and let it move around the conductive metal plates 520 and 522 such as 524 and 526 to get in touch with each other. The movement causes the first DC circuit to charge the first type of battery pack 502 is switched on. Furthermore, the metal plates 526 and 528 separated from each other, creating a second DC circuit for charging the second type of battery pack 100 is opened.

Conversely, removing the first type of battery pack does 502 from the first base 510 that the switch 518 returns to an unactuated position, causing the metal plates 526 and 528 are brought into contact with each other to form a closed circuit, whereby the second DC circuit is actuated to the second type of battery pack 100 (please refer 1A and 1B ) by connection to the second base 404 (please refer 4A ) to be able to load. In one form of the invention, the switch 518 by a biasing means such as a spring member 530 (please refer 5A ) are driven back into the unactuated position.

6 Fig. 3 is a perspective view of the battery charger 600 of 3A from the side, the first type of battery pack 602 in the first socket 604 is used. Also shown is a light emitting diode (LED) 606 that emits light when the battery charger 600 the battery pack 602 powered. The AC connectors 608 allow the battery charger 600 to connect to an AC power supply.

If the first type of battery pack 602 in the first socket 604 is used and the switch actuator 610 selecting or turning on the first DC circuit to charge the first type of battery pack 602 triggers, the first DC circuit forms a closed circuit through the first type of battery pack 602 via the contact points 308 in the first base 604 and the connectors 204 on the battery pack 602 ,

7 Fig. 3 is a perspective view of the battery charger 700 of 3A with inserted second type of battery pack 702 of the page. The second type of battery pack 702 contains a connector 704 of the type with plug and cable that is in a second socket 706 in the housing 708 is used. The second base 706 contains contact points for electrical connection of the connector 704 type with plug and cable with the battery charger 700 ,

In a preferred embodiment of the invention, the second type of battery pack is also 702 designed in the first base 710 to be picked up without the switch 518 to operate (in 5A and 5B shown). This provides a convenient means of storing the second type of battery pack 702 during charging.

8A shows the design of a circuit board 814 of the battery charger 700 with a switch 802 more clearly in an unactuated position. If the switch 802 is in an unactuated position, the second DC circuit is on to the second type of battery pack 702 by connecting to the second base 706 of the battery charger 700 to be able to load.

As previously described, the switch 802 by engaging a switch actuator 610 actuated that on the first type of battery pack 602 is provided. In 8A was not a battery pack 602 with a switch actuator 610 in the first socket 604 of the battery charger 600 used. Therefore, they have on the circuit board 814 arranged conductive metal plates 804 to 810 no contact (that is, the conductive metal plates 804 and 806 such as 808 and 810 ). Therefore, the first DC circuit is for charging the first type of battery pack 602 not turned on, and the second DC circuit for charging the second type of battery pack 702 is on.

8B shows the relative design of conductive elements on the circuit board when the switch 802 by engaging with a first type of battery pack 600 provided switch actuator 610 has been moved into the actuated position. In this case, those on the circuit board 814 arranged conductive metal plates 804 to 812 brought into contact with each other (that is, the conductive metal plates 804 and 806 such as 808 and 810 ). This relative movement causes the first DC circuit to turn on to charge the in the first socket 604 of the battery charger 600 used first type of battery pack 602 to enable. At the same time, the metal plates 810 and 812 separated from each other, whereby the second DC circuit for charging the second type of battery pack 702 is opened.

9A is a simple circuit diagram showing the circuit operated when the switch 802 is not operated; that is, the power circuit when the second type of battery pack 702 with the battery charger 700 is connected and the switch 802 is in the unactuated position (see 8A ).

9B shows the operated circuit when the switch 802 by inserting the first type of battery pack 602 in the first socket 604 of the battery charger 600 is operated.

It is an advantage of the present Invention that closing one of the circuits opening of the alternative circuit.

A particular problem with the loading of the shrink-wrapped battery packs described earlier 100 is that if certain parts of the shrink wrap are damaged 104 , that is, part of the shrink packaging 104 covering an area of one or more battery cells 102 covered, which can come into contact with a conductive body at any stage, the battery pack 100 can be short-circuited and burn out. For example, this problem may occur when using a battery pack 100 type with shrink wrapping in the first base 306 of the battery charger 300 of the present invention and the first DC circuit for charging the first type of battery pack 200 could not be turned off, with a closed circuit through the first type of battery pack 200 via the contact points 308 in the first base 306 and the connectors 204 on the battery pack 200 is trained. Because of the contact points 308 in the first base 306 through circuit is open and is off when a shrink-wrapped battery pack 100 without switch actuator 206 in the first socket 306 of the battery charger 300 the short circuit problem is caused by the battery charger 300 rendered ineffective in the present invention.

While one embodiment of the present invention should be presented in detail here be clear to a specialist modifications and adjustments these embodiments can come up with without the scope of protection specified in the following claims Leaving invention.

Claims (8)

Battery chargers for charging two different ones Types of rechargeable battery pack, a first battery pack, that two power connections and a second battery pack that has a power connector has the type with plug and cable, the battery charger following having: (a) a housing; (B) a first base in the housing to accommodate the first type of battery pack, the first socket Contact points for electrical connection of the connections of the first type of battery pack with the battery charger contains; (C) a second base, the second base contact points for electrical Connection of the connector of the type with plug and cable of the second type contains of battery pack with the battery charger; (d) AC connector for connecting the battery charger to an AC supply output; (E) a circuit board with alternative first and second DC circuits to power the battery pack; (f) a switch for Switching on one of the circuits; where if the first type of Battery pack is inserted in the first socket, the switch the first DC circuit turns on to the first type of battery pack to load while, if no battery pack of the first type is inserted in the first socket the switch turns on the second DC circuit by which second type of battery pack by connecting to the second socket to be able to load. battery charger of claim 1, wherein the second type of battery pack in the first socket can be used, but without causing the switch turns on the first DC circuit so that the second DC circuit remains switched on by the switch. battery charger of claim 2, wherein the contact points in the first base of the battery charger not form part of the second DC circuit when the second Type of battery pack is included. battery charger of claim 1, wherein the first type of battery pack is a switch actuator contains that operates the switch when the first type of battery pack is inserted in the base. battery charger according to claim 4, wherein the switch actuator is an L-shaped member, which protrudes from one side of the first type battery pack. battery charger of claim 4, wherein when the battery pack of the first type of the first socket is removed, a biasing means the switch drives to a position in which the second DC circuit is turned on is. battery charger according to claim 1, wherein the second DC circuit is open, when a battery pack of the first type is inserted in the first socket is. battery charger of claim 1, wherein the first DC circuit is open when no battery pack of the first type inserted in the first socket is.