JPH05284669A - Charger of solar cell - Google Patents

Abstract

PURPOSE:To deal with quick charge of a battery without wasting electric power of a solar cells in the case they are fully charged in a charger using the solar cell. CONSTITUTION:A charger of a solar cell is constituted of solar cells 1 generating electricity when it receives sunlight, a battery 2 storing electric power generated by the solar cell 1, a charging control circuit 3 controlling a charging state to the battery 2 through the solar cell 1 and an air supply means 5 cooling the battery 2. The charging control circuit 3 is informed of a charging state of the battery 2 from the temperature thereof, and when the temperature of the battery 2 is in excess of a specific value, the power from the solar cell 1 is supplied to the air supply means 5 to cool the battery 2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for charging electric power from a solar cell.

[0002]

2. Description of the Related Art Conventionally, a charging device for electric power generated by a solar cell is shown in FIG.
It consists of a charging control circuit 13 and a power source changeover switch 14,
The electric power generated from the solar cell 11 is stored in the storage battery 12, and when the temperature of the storage battery 12 becomes equal to or higher than a predetermined value, the charging state of the storage battery 12 is controlled by a signal from the charge control circuit 13 to turn on the power source changeover switch 14. It is turned off and controlled. Reference numerals 15 and 15 are output terminals for supplying power to a load (not shown).

As described above, it is well known that the temperature of the storage battery 12 generally rises when the storage battery 12 is completely charged, and the conventional configuration of FIG. 3 also utilizes this phenomenon.

[0004]

However, when the above-mentioned solar battery charging device reaches the full charge range, the power generated by the solar battery after being fully charged is wasted. Furthermore, the temperature of the storage battery itself does not easily drop, and even if a large amount of power is taken out from the output terminal immediately after full charge and the amount of charge in the storage battery decreases, the temperature of the battery itself remains high and it cannot be charged again in a short time. There was a point.

[0005]

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and is a solar cell that generates power when receiving sunlight, and a storage battery that stores the power generated by the solar cell. And a charging control circuit that controls the state of charge from the solar cell to the storage battery and a blowing unit that cools the storage battery.The charging control circuit knows the state of charge of the storage battery from the temperature of the storage battery, and the temperature of the storage battery is When the value exceeds a predetermined value, the electric power from the solar cell is supplied to the blowing means to cool the storage battery.

[0006]

According to the present invention, when the temperature of the storage battery becomes high, the storage battery determines that the storage battery is fully charged, and the blowing means can be operated without wasting the solar cell power. Furthermore, this air blowing unit can cool the storage battery in a high temperature state in a short time, and can cope with rapid charging of the storage battery.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail below with reference to the drawings. FIG. 1 is a circuit diagram of a solar cell charging device according to the present invention. A solar cell 1 has a power generation output of 8 V and 15 A, for example. 2 is a storage battery using a 7.2 V, 10 Ah NiCd battery. A charge control circuit 3 controls the charge state of the storage battery 2 by temperature.
Reference numerals 4 and 4 are output terminals for supplying power to a load (not shown). Reference numeral 5 is a blower for cooling the storage battery 2, which is specifically configured by a fan of 6V and 1.33A. When the storage battery 2 reaches the full charge range, the changeover switch 6 is used to switch the solar battery 1 It is driven by being supplied with electric power from.

In this circuit, when the solar cell 1 is irradiated with sunlight, the solar cell 1 generates electric power, and the generated electric power is supplied to the storage battery 2 via the switch 6.
Be charged. When the power supply to the storage battery 2 is continued and approaches a fully charged state, the temperature of the storage battery 2 rises, and in response to the temperature rise, the charging control circuit 3 switches the changeover switch 6 to the blower means 5 side, and the storage battery 2 The charging of No. 2 is stopped and the blower unit 5 is driven. In this way, the air blower 5 is connected to the storage battery 2
By driving so as to cool the storage battery 2 in a high temperature state, the storage battery 2 can be cooled in a short time and can be rapidly charged even when the charge amount of the storage battery decreases.

FIG. 2 shows about 1 power generated by the solar cell 1.
Blower means 5 for charging the storage battery 2 with 15 A (1.5 c) of 20 W of electric power, stopping the charging when the battery temperature reaches about 50 ° C., and lowering the battery temperature to a chargeable temperature of about 40 ° C. FIG. 13 is a characteristic diagram in which the time depending on the presence / absence of the battery is examined. It takes 85 minutes when the blowing means 5 is not attached after charging is stopped at the battery temperature of about 50 ° C., and 35 minutes when the blowing means 5 of the present invention is attached. It becomes about 40 ° C., and it can be seen that the storage battery 2 can be cooled and can be charged in a short time when the blowing means 5 is attached also in this figure.

[0010]

According to the present invention, a solar cell that generates power when receiving sunlight, a storage battery that stores the power generated by the solar cell, and a charge control circuit that controls the state of charge from the solar cell to the storage battery. The charging control circuit knows the state of charge of the storage battery from the temperature of the storage battery, and supplies the power from the solar cell to the blowing device when the temperature of the storage battery exceeds a predetermined value. Since the storage battery is cooled by the battery, when the temperature of the storage battery becomes high, the charging control circuit determines that the storage battery is fully charged, and the air blower can be operated without wasting the solar cell power. The air blowing unit can cool the high temperature storage battery in a short time and can cope with rapid charging of the storage battery.

[Brief description of drawings]

FIG. 1 is a circuit diagram of a solar cell charging device of the present invention.

FIG. 2 is a characteristic diagram of a solar cell charging device of the present invention.

FIG. 3 is a circuit diagram showing a conventional example of a solar cell charging device of the present invention.

[Explanation of reference numerals] 1 solar cell 2 storage battery 3 charging control circuit 5 blower means

Claims (1)

[Claims] 1. A solar cell that generates power when receiving sunlight, a storage battery that stores the power generated by the solar cell, a charge control circuit that controls the state of charge from the solar cell to the storage battery, and a cooling of the storage battery. And a blowing means for
The charge control circuit knows the charge state of the storage battery from the temperature of the storage battery, and when the temperature of the storage battery becomes a predetermined value or more, a solar battery for supplying electric power from the solar battery to the blowing means to cool the storage battery. Charging device.