JPH0729613A - Electric charging connector - Google Patents

Abstract

PURPOSE:To prevent the fuming or firing due to a reverse flowing current in the case where an input side of a charging connector is short-circuited by inserting a reverse flow preventing diode into a positive electrode charging terminal so as to prevent a reverse flowing current from flowing in a battery charger from a battery charging pack. CONSTITUTION:An electric charging connector 1 receives an output of an electric charger 5. A reverse flow preventing diode 2 is connected in the forward direction with respect to an output of a positive electrode. The diode 2 is connected to a positive electrode charging terminal 3 on the side of a cathode. An output of a negative electrode of the charger 5 is connected directly to a negative electrode charging terminal 4. A battery charger pack 6 is provided with a positive electrode current receiving terminal 7 and a negative electrode current receiving terminal 8. The positive electrode charging terminal 3 of the charging connector 1 is connected to the positive electrode current receiving terminal 7 while a negative electrode charging terminal 4 is connected to the negative electrode current receiving terminal 8 so that the charger 5 can supply a charging current. When the charger 5 and the battery charger pack 6 are connected via the charging connector 1, it is possible to prevent a reverse flow current from flowing in the charger 5 from the charging pack 6 by the function of the reverse flow preventing diode 2 even if an input side of the charging connector 1 is short-circuited.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charging connector used when connecting a charger to a rechargeable battery pack.

[0002]

2. Description of the Related Art A conventional charging connector used when connecting a charger to a rechargeable battery pack is such that the positive electrode output of the charger is directly connected to the positive electrode charging terminal of the charging connector to output the negative electrode of the charger. Is directly connected to the negative charging terminal of the charging connector.

[0003]

In the conventional charging connector as described above, when a short-circuit accident occurs in the cable on the input side, the charger side prevents smoke and ignition accidents due to the charging current by the overcurrent prevention mechanism. However, there is a problem in that a backflow current from the rechargeable battery, which is a load, causes smoke and fire accidents.

[0004]

The charging connector of the present invention comprises a diode connected in the forward direction with respect to the output of the positive electrode of the charger, and the cathode side of the diode is connected to the positive electrode charging terminal. The output of the negative electrode of is directly connected to the negative electrode charging terminal.

[0005]

Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 is a circuit diagram showing an embodiment of the present invention.

In FIG. 1, a charging connector 1 receives an output of a charger 5, and connects a backflow prevention diode 2 in a forward direction with respect to an output of its positive electrode.
Is connected to the positive electrode charging terminal 3 and the output of the negative electrode of the charger 5 is directly connected to the negative electrode charging terminal 4. The rechargeable battery pack 6 has a positive electrode power receiving terminal 7 and a negative electrode power receiving terminal 8. The positive electrode power receiving terminal 7 is connected to the positive electrode charging terminal 3 of the charging connector 1, and the negative electrode power receiving terminal 8 is connected to the negative electrode charging terminal 4. By doing so, the charging current can be supplied from the charger 5.

When the charger 5 and the rechargeable battery pack 6 are connected by the charging connector 1 thus constructed, even if the input side of the charging connector 1 is short-circuited, the backflow prevention diode 2 causes the rechargeable battery pack 6 to be charged. Backflow current is prevented from flowing in the device 5.

[0009]

As described above, the charging connector of the present invention is charged by inserting a backflow prevention diode into the positive electrode charging terminal to prevent a backflow current from the rechargeable battery pack to the charger. When the input side of the connector is short-circuited, there is an effect that it is possible to prevent the occurrence of smoke and fire accidents due to the reverse current.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention.

[Explanation of symbols]

 1 Charging Connector 2 Backflow Prevention Diode 3 Positive Charging Terminal 4 Negative Charging Terminal 5 Charger 6 Rechargeable Battery Pack 7 Positive Power Receiving Terminal 8 Negative Power Receiving Terminal

Claims (1)

[Claims] 1. A diode is connected in the forward direction with respect to the positive output of the charger, the cathode side of the diode is connected to the positive charge terminal, and the negative output of the charger is directly connected to the negative charge terminal. A charging connector characterized in that.