JPS5922776Y2 - storage battery device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to improvements in storage battery devices used in electrical equipment.

Conventionally, storage battery devices that are used by being built into or connected to electrical equipment are equipped with a fuse as a safety device, but storage battery devices are used in two states: charging and discharging, and generally the charging current Since the magnitude of the discharge current is smaller than the discharge current, the allowable current was set according to the relatively large discharge current, and only one type of battery was connected in series with the storage battery.

Therefore, for example, normally the charging current is about one magnitude of the discharging current, but when an electrical device breaks down and the charging current increases, a fuse whose allowable current is set to match the relatively large discharging current will not blow out. Excessive charging current flowed into the storage battery, damaging it.

The present invention eliminates the above-mentioned drawbacks by separately using two types of fuses in series with the storage battery: a discharge fuse and a charging fuse with a smaller allowable current than the discharge fuse. This storage battery device is capable of preventing the flow of excessive current exceeding the allowable current at each time of charging and discharging, thereby avoiding damage to electrical equipment and the storage battery.

An example of the present invention will be explained.

As shown in FIG. 1, a charging fuse 1 and a charging diode 2 that determine the direction of the charging current are connected in series, and a discharging fuse 3 and a discharging diode 4 that determines the direction of the discharging current are connected in series. are connected in series, connected in parallel, and connected in series to the storage battery 5.

Furthermore, the allowable current of the charging fuse 1 is set to be smaller than that of the discharging fuse 3.

When charging the storage battery 5, current flows through the charging fuse 1 and the charging diode 2, and the charging fuse 1 prevents the flow of excessive charging current, and when the storage battery 5 is discharged,
The current flows through the discharge fuse 3 and the discharge diode 4, and the discharge fuse 3 prevents the flow of excessive discharge current.

Therefore, due to the excessive charging current as in the conventional case, the storage battery 5
There is no longer any possibility of damage.

As mentioned above, the storage battery device of the present invention uses two types of fuses in series with the storage battery: a discharging fuse and a charging fuse with a smaller allowable current than the discharging fuse Z. It has great practical value in that it can prevent the flow of excessive current that exceeds the allowable current at each time of charging and discharging the storage battery, thereby avoiding damage to electrical equipment and the storage battery.

[Brief explanation of drawings]

FIG. 1 is an electrical circuit diagram showing an example of the storage battery device of the present invention. 1 is a charging fuse, 2 is a charging diode, 3 is a discharging fuse, 4 is a discharging diode, and 5 is a storage battery.

Claims (1)

[Scope of utility model registration request] A discharging fuse and a discharging diode are connected in series, and a charging fuse and a charging diode are connected in series and the allowable current is set smaller than that of the discharging fuse, and the charging diode is connected in parallel. This is a storage battery device that is connected in series to a storage battery.