KR200374561Y1 - Charger - Google Patents

Abstract

The charger has a first housing, a second housing connected to the first housing, and a PCB coupled between the first housing and the second housing. A plurality of battery spaces are defined in the first housing. Each battery compartment is coupled with the first and second elastic plates to contact the positive and negative electrodes of the rechargeable battery, respectively. Each resilient plate has a contact area and a soldering area. The circuit system is defined on the PCB and has an AC-DC circuit, a charging circuit, and a power output and input circuit. The circuits are connected to each other and to the soldering regions of the first and second elastic plates in each battery space. The power input socket and the power output socket are configured to be connected with the power output and the input circuit. Therefore, the charger according to the present invention may not only charge a rechargeable battery, but also directly supply electric power to an electric device through an external power line connected between the charger and the electric device for convenience of use.

Description

Charger {CHARGER}

The present invention relates to a charger capable of charging a rechargeable battery through a charger, in particular, an indoor socket or a smoking socket of a car, wherein the charger can supply power to a cordless telephone, and when the charging is completed, the rechargeable battery is It can be installed directly on electrical devices such as moving toys, remote controls, and lights.

As is well known, rechargeable electrical appliances are generally powered by two methods: replacing the battery or charging the battery. Once the battery is fully used, it is convenient to replace it. However, replacing the battery is uneconomical. Thus, common electrical appliances provide direct power supply as well as power from rechargeable batteries for repeat use and economic efficiency. The rechargeable battery may be charged through an electrical device using the rechargeable battery or through a charger. However, rechargeable batteries can only be charged indoors, which is very inconvenient for use.

Moreover, cordless phones are so common that one person has one cordless phone. The power supply of cordless phones is of major interest to consumers. However, because of the different design styles and characteristics of the individual brands of cordless phones, rechargeable batteries cannot be used in other brands of cordless phones, resulting in inconvenience in power supply.

It is an object of the present invention to provide a charger that can not only charge a rechargeable battery, but also supply power directly to an electric device through an external power line connected between the charger and the electric device for convenience in use.

Another object of the present invention is to provide a charger capable of charging a rechargeable battery through an indoor socket or an automobile smoking socket, so that the charger is not limited to being charged only indoors.

1 is an exploded view of a charger according to the present invention,

2 is an assembly view of FIG. 1,

3 is a partial cross-sectional view of the charger in a charged state,

4 is a view similar to FIG. 3, but showing a rechargeable battery that is not connected to the charger due to a wrong connection;

5 is a flowchart of the charger of the present invention.

In order to achieve the above object, the charger according to the present invention has a first housing, a second housing connected to the first housing, and a PCB coupled between the first housing and the second housing. Space is defined. Each battery compartment is coupled with the first and second elastic plates to contact the positive and negative electrodes of the rechargeable battery, respectively. Each resilient plate has a contact area and a soldering area. The circuit system is defined on the PCB and has an AC-DC circuit, a charging circuit, and a power output and input circuit. The circuits are connected to each other and to the soldering regions of the first and second elastic plates in each battery space. The power input socket and the power output socket are configured to be connected with the power output and the input circuit.

(Example)

1-2, the charger 1 of the present invention comprises a first housing 2, a second housing 3, and a printed circuit board (PCB). The first housing 2 has two battery spaces 20, 21 defined therein. Each battery space 20, 21 is coupled with a first elastic plate 22 and a second elastic plate 23 in contact with the positive and negative electrodes of the rechargeable battery, respectively. Each of the flexible plates 22 and 23 has contact regions 221 and 231 for contacting the positive / negative electrode of the rechargeable battery and soldering regions 222 and 232 for soldering to the PCB 4. Referring to FIGS. 3-4, the contact region 221 of the first elastic plate 22 is located in an extended concave portion (no reference numeral) communicating with one side of the battery space 20. The contact region 231 of the second elastic plate 23 slightly protrudes to the other side of the battery space 20. The contact region 221 and the extended recess of the first elastic plate 22 together provide a function of preventing the rechargeable battery 7 from extending in the wrong direction in the battery space 20. Referring to FIG. 4, when the rechargeable battery 7 is placed in the wrong direction in the battery space 20, the contact area 221 of the first elastic plate 22 is spaced by t from the negative electrode of the battery 7. Is present, and thus the battery 7 cannot be electrically connected to the contact area 221. FIG. 3 shows that the battery 7 is placed in the battery space 20 in the correct direction and connected to the contact area 221 of the first elastic plate 22.

The second housing 3 is connected with the first housing 2 to form the entire housing of the charger 1. Two battery spaces 30, 31 are defined in the second housing 3. Each battery space 30, 31 is coupled with third and fourth elastic plates 32, 33 to contact the positive and negative electrodes of the rechargeable battery 7, respectively. The configuration of the third and fourth elastic plates 32 and 33 is similar to that of the first and second elastic plates 22 and 23.

The PCB 4 is assembled between the first housing 2 and the second housing 3. A circuit system (without reference numeral) is defined in the PCB 4, and is provided with an AC-DC (AC-DC) circuit, a charging circuit, a boosting circuit for controlling the boosting of direct current, and a light source display circuit. The circuits are connected to each other and to the soldering regions of the first and second elastic plates in each battery space. Since the circuit is a conventional technique, it is not described in detail here. Furthermore, the circuit system includes a power output and input circuit for providing a power output and a connection to an input circuit to a power input socket 40 whose other end is connected to one end of a power line connected to a vehicle smoking socket or an indoor socket. Is defined. In addition, the power output socket 41 is formed so that the other end is connected to a power output and an input circuit for connecting with one end of the power line 6 connected to the wireless telephone. 2 and 5, the charger of the present invention can be charged via an external power line 5 in an automobile, and when charging is completed, the charger is directly connected to the cordless phone through an external power line 6 for power supply. It may be connected, or the rechargeable battery 7 may be taken out of the charger and installed in an electric appliance such as an electrically operated toy, a remote control, a light or the like.

The present invention can be embodied in other forms without departing from the core of the present invention. Accordingly, the present embodiments are illustrative rather than limiting, and the present invention is not limited to the details disclosed herein.

According to the present invention, since the electric power can be directly supplied to the electric device through an external power line connected between the charger and the electric device, it is convenient in use, and the charger can be recharged through the indoor socket or the car smoking socket. There is an effect that is not limited to only chargeable.

Claims (8)

A first housing in which a plurality of battery spaces are defined, each battery space being coupled with first and second resilient plates having a contact area and a solder area to contact the positive and negative electrodes of the rechargeable battery, respectively; A second housing connected to the first housing; A circuit system coupled between the first and second housings, the circuit system having an AC-DC circuit, a charging circuit, and a power output and an input circuit, comprising a defined PCB, And the circuits are connected to each other and connected to the soldering regions of the first and second elastic plates in each battery space, and the power input socket and the power output socket are connected to the power output and the input circuit. The first elastic plate of claim 1, wherein the contact region of the first elastic plate is located in an extended recess in communication with one side of the battery space, the contact region of the second elastic plate slightly protrudes to the other side of the battery space, And the contact area and the extended recess of the charger together provide a function to prevent the rechargeable battery from extending in the wrong direction in the battery space. 3. The charger according to claim 2, wherein the power input socket is connectable with another side of a power line connected to one side of a smoking socket or an indoor socket of a vehicle. The charger according to claim 3, wherein the power output socket is connectable with the other side of the power line, the one side of which is connected to the cordless telephone. 5. The charger according to claim 4, wherein the circuit system further comprises a light source display circuit for driving the light indicator, wherein the first housing has a through hole corresponding to the light indicator. 6. The method of claim 5, wherein the second housing further comprises a plurality of battery spaces, each battery space coupled with third and fourth elastic plates for contacting the positive and negative poles of the rechargeable battery, respectively, Charger having a contact area and a soldering area. The charger according to claim 6, wherein each of the first housing and the second housing has two battery spaces. The charger according to claim 1, wherein the circuit system further comprises a boosting circuit for controlling the boosting of the direct current.