CN201509161U - Solar power module - Google Patents

Abstract

The utility model discloses a solar energy power module. The solar energy storage device comprises a shell, wherein a solar battery, a diode, an energy storage element and a protection circuit unit are arranged in the shell, the solar battery is connected with the energy storage element through the diode, and the protection circuit unit is connected to two ends of the energy storage element in parallel. The power module can directly replace a common battery in low-power electric appliances such as a remote controller, a quartz clock and the like, and has the advantages of convenience in use, reliability in work, long service life, maintenance-free, energy-saving, environment-friendly and the like.

Description

Solar power module

Technical Field

The utility model relates to a solar energy power module.

Background

The common battery is widely applied in daily life, the battery is generally adopted to supply power in a plurality of electronic products (such as 1-section, 2-section five-size or seven-size batteries), the common battery (zinc-manganese battery) can not be recycled, belongs to consumables, and has the problem of environmental pollution in the production and use processes.

Disclosure of Invention

In order to solve the technical problem that the use of a common battery has a polluted environment, the utility model provides a solar power module which is pollution-free and has long service life.

The utility model provides an above-mentioned technical problem's technical scheme be: the solar energy storage device comprises a shell, wherein a solar battery, a diode, an energy storage element and a protection circuit unit are arranged in the shell, the solar battery is connected with the energy storage element through the diode, and the protection circuit unit is connected to two ends of the energy storage element in parallel.

In the solar power module, the solar cell is any one of a single crystal silicon solar cell, a polycrystalline silicon solar cell, an amorphous silicon solar cell, a thin film solar cell or a dye-sensitized solar cell.

In the above solar power module, the energy storage element is any one of a lithium ion battery, a super capacitor and a nickel hydrogen battery.

The solar power module further comprises an electric quantity display unit, and the electric quantity display unit is connected to two ends of the energy storage element in parallel.

In the solar power module, the lithium ion battery may be any one of a lithium iron phosphate lithium ion battery, a lithium cobalt oxide lithium ion battery, and a lithium manganese oxide lithium ion battery.

In the solar power module, the super capacitor may be an electric double layer capacitor, an electrochemical capacitor, or a hybrid capacitor.

In the solar power module, the super capacitor may be a single body, or an assembly formed by connecting a plurality of single bodies in series and parallel.

The technical effects of the utility model lie in: the utility model combines the solar battery with the super capacitor, the lithium ion battery or the nickel-hydrogen battery to form an electric energy storage system which is used for replacing the common battery to supply the electric equipment, when light exists in the daytime, the solar battery generates electric energy to supply the electric equipment, and the super capacitor, the lithium ion battery or the nickel-hydrogen battery is charged at the same time; when no light or insufficient light exists at night, the super capacitor, the lithium ion battery or the nickel-hydrogen battery supplies power to the electric equipment, and the working requirements of the electric equipment are met.

The invention will be further described with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic circuit diagram of the present invention.

Fig. 2 is a schematic view of the external structure of the present invention.

Detailed Description

The circuit schematic diagram of the present invention is shown in fig. 1. The solar cell 1 receives light rays and generates electric energy, the current charges the energy storage element 3 through the diode 2, the energy storage element 3 can be any one of a super capacitor, a lithium ion battery and a nickel-hydrogen battery or a combination of the super capacitor, the lithium ion battery and the nickel-hydrogen battery, the protection unit 4 is connected in parallel with two ends of the energy storage element 3, when the voltage is higher than the set voltage, the protection unit automatically starts to discharge redundant electric energy so as to ensure that the energy storage element 3 works within a rated voltage range, the electric quantity display unit 5 is connected in parallel with two ends of the energy storage element and is used for detecting and displaying the electric quantity stored by the energy storage element, and the energy storage element 3 can be supplied to a load 6 to work after storing proper electric quantity.

The appearance structure of the utility model is shown in figure 2. The top layer is a transparent protective film 7, the lower layer is a solar cell 8, an energy storage element, a protection unit and an electric quantity display unit are arranged in a package 9, and 10 is an output electrode of the module.

If the elements in the figure are chosen as follows: the solar cell panel is 40 multiplied by 20mm, the diode 1N4148 and the super capacitor 2.7V5F, the super capacitor can be fully filled in about 30 minutes under the actual measurement of normal light, and the module is directly arranged in a battery bin such as a remote controller, a quartz clock and the like to replace a common battery for supplying power; when no light exists, the remote controller can work for more than 48 hours, and the quartz clock can work for more than 24 hours. Therefore, the super capacitor is lighted every day without charging the electric energy of the super capacitor, and the solar battery can charge the super capacitor, so that the aim of completely replacing the battery is fulfilled.

The utility model provides a solar energy power module has and replaces convenience, reliable operation, longe-lived, non-maintaining, need not change battery, energy-concerving and environment-protective advantage forever, and especially adapted replaces ordinary battery in miniwatt electrical apparatus such as remote controller, quartz clock.

Claims (7)

1. A solar power module, characterized by: the solar energy storage device comprises a shell, wherein a solar battery, a diode, an energy storage element and a protection circuit unit are arranged in the shell, the solar battery is connected with the energy storage element through the diode, and the protection circuit unit is connected to two ends of the energy storage element in parallel.

2. The solar power module of claim 1, wherein: the solar cell is any one of a monocrystalline silicon solar cell, a polycrystalline silicon solar cell, an amorphous silicon solar cell, a thin-film solar cell or a dye-sensitized solar cell.

3. The solar power module of claim 1, wherein: the energy storage element is any one of a lithium ion battery, a super capacitor and a nickel-hydrogen battery.

4. The solar power module of claim 1, wherein: the energy storage device further comprises an electric quantity display unit, and the electric quantity display unit is connected to two ends of the energy storage element in parallel.

5. The solar power module of claim 3, wherein: the lithium ion battery can be any one of a lithium iron phosphate lithium ion battery, a lithium cobalt oxide lithium ion battery and a lithium manganate lithium ion battery.

6. The solar power module of claim 3, wherein: the supercapacitor can be an electric double layer capacitor, an electrochemical capacitor, a hybrid capacitor.

7. The solar power module of claim 3, wherein: the super capacitor can be a single body, or an assembly formed by connecting a plurality of single bodies in series and parallel.

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