KR101008814B1 - Electric power system using solar cell module - Google Patents

Abstract

PURPOSE: A power generation system is provided to improve power generation efficiency by detecting the defect of a solar battery module in advance. CONSTITUTION: A plurality of solar battery modules(10) are serially connected to each other. A storage battery module(30) stores electricity which is generated by the plurality of solar battery modules. A plurality of voltage detecting parts(50) detects the voltage of the plurality of solar battery modules. A plurality of switches are arranged between the plurality of storage batteries of the storage battery module. A control part(70) controls the plurality of switches according to the total voltage that is detected by the plurality of voltage detecting parts. The control part determines the defect of the plurality of solar battery modules.

Description

Solar cell power generation system {ELECTRIC POWER SYSTEM USING SOLAR CELL MODULE}

The present invention relates to a solar cell power generation system, and in particular, even if the power generation voltage of the solar cell module is lower than the chargeable voltage of the battery module, it is possible to reduce the generation of invalid power, and also whether the solar cell module is defective early. The present invention relates to a solar cell power generation system capable of increasing power generation efficiency by suppressing a decrease in power generation amount by detecting a power loss.

Recently, research and development of solar cell power generation systems have been actively conducted to cope with environmental problems such as increased energy demand and global warming.

The solar cell power generation system installs a solar cell array including a plurality of solar cell modules on a roof of a building in which the sun shines, and is composed of a solar cell array and a power conditioner that converts solar energy into electrical energy. The output is regulated by a power conditioner and supplied to the load.

Meanwhile, the biggest problem of solar cell power generation system is the accumulation of electric energy. In the case of solar power generation, the electrical energy can be obtained only at the time when the solar light is irradiated, but the use of electricity should generally be possible at any time. Therefore, power generation using solar cells requires the accumulation of electrical energy.

The most common method of accumulating electricity is power storage using a battery, and the service life greatly varies depending on the method of charging or using the battery. In addition, there are many differences in solar cell utilization efficiency depending on the charging method of the battery.

In particular, when the amount of sunshine is low and the voltage generated from the solar cell module is lower than the voltage that can be charged in the battery module can not be charged. In order to solve this problem, the power generation voltage is boosted using a converter, but the efficiency of the converter circuit is low, which causes a decrease in the overall efficiency.

The present invention for solving the above problems, even if the power generation voltage by the solar cell module is lower than the chargeable voltage of the battery module can be charged to reduce the invalid power generation, and also to detect whether the solar cell module defective early The purpose is to provide a solar cell power generation system that can increase the power generation efficiency by suppressing the decrease in power generation.

The present invention for achieving the above object,

A plurality of solar cell modules connected in series;

A storage battery module configured to charge electric power generated from the plurality of solar cell modules and have a plurality of storage batteries connected in series;

A plurality of voltage detectors respectively detecting voltages of the plurality of solar cell modules;

A plurality of switches each provided between the plurality of batteries so as to be charged in a state in which one or more of the batteries are excluded;

It provides a solar cell power generation system comprising a; control unit for controlling the plurality of switches in accordance with the total voltage detected by the plurality of voltage detection unit.

Preferably, the controller compares the chargeable voltage for each number of accumulators of the battery module with the total voltages detected by the plurality of voltage detectors, calculates the number of chargeable accumulators, and controls the plurality of switches based on a calculated value. .

The controller may determine whether the solar cell module is defective based on a result of comparing the voltage of each solar cell module detected by the plurality of voltage detectors with a predetermined voltage.

The predetermined voltage may be an average voltage of each solar cell module or may be a voltage of adjacent solar cell modules of each solar cell module.

In the solar cell power generation system of the present invention, even if the generated voltage by the solar cell module is lower than the chargeable voltage of the battery module, charging is possible, thereby reducing the invalid power generation.

In addition, the present invention has the effect of increasing the power generation efficiency by reducing the amount of power generation by early detection of whether the solar cell module defective.

1 is a block diagram schematically showing the structure of a solar cell power generation system of the present invention,
2 is a view schematically showing a state in which a switch is disposed between a plurality of batteries of the battery module.
3 is a view showing a state in which the series connection of the battery 1 is cut off,
4 is a view showing a state in which the series connection of the battery 1 and the battery 2 is cut off.

Hereinafter, the solar cell power generation system of the present invention will be described in detail with reference to Examples. The scope of the present invention is not limited to the following Examples.

FIG. 1 is a block diagram schematically showing the structure of a solar cell power generation system of the present invention, and FIG. 2 is a diagram schematically illustrating a state in which switches 910, 920, 930 and 940 are disposed between a plurality of batteries of the battery module 30.

The solar cell power generation system of the present invention includes a plurality of solar cell modules 10, a storage battery module 30, a plurality of voltage detectors 50, a plurality of switches 910, 920, 930, 940, and a controller 70 as shown in FIG. 1. Is done.

The plurality of solar cell modules 10 are formed by connecting a plurality of solar cell modules formed by connecting a plurality of solar cells in series or in parallel.

The battery module 30 is for charging electric power generated from the plurality of solar cell modules 10, and the plurality of storage batteries 310, 320, 330, and 340 are connected in series.

The plurality of voltage detectors 50 are for detecting voltages of the plurality of solar cell modules 10, respectively, and are connected to the plurality of solar cell modules 10, respectively.

The plurality of switches 910, 920, 930, and 940 are disposed between the plurality of capacitors 310, 320, 330, and 340, respectively, so that the plurality of switches 910, 920, 930, and 940 may be charged in a state in which one or more of the batteries 310, 320, 330, 340 are excluded. The structures of the plurality of switches 910, 920, 930, and 940 are not limited to FIG. 2, but may be any structure that can selectively exclude one or more of the plurality of batteries.

Next, the control unit 70 controls the plurality of switches 910, 920, 930, and 940 according to the total voltages detected by the plurality of voltage detection units 50.

When the total voltage detected by the plurality of voltage detectors 50 is lower than the chargeable voltage of the plurality of batteries, the controller 70 does not step up using the converter as in the related art, and the controller 70 controls the plurality of switches 910, 920, 930 and 940. By controlling the to cut off the series connection of one or more of the plurality of storage batteries, the reactive power can be reduced.

The controller 70 compares the chargeable voltage for each number of accumulators of the battery module 30 with a premise voltage detected by the plurality of voltage detectors 50 and calculates the number of chargeable accumulators and calculates the number of chargeable accumulators. It is preferable to control the plurality of switches (910, 920, 930, 940).

3 is a view illustrating a state in which the series connection of the battery 1 is blocked, and FIG. 4 is a view illustrating a state in which the series connection of the battery 1 and the battery 2 are blocked.

When the total voltage detected by the plurality of voltage detectors 50 is lower than the voltage that can be charged for four batteries and the voltage that can be charged for three batteries, the controller 70 blocks the switch 1 910 as shown in FIG. 3. And switch 2 920 to switch 4 940.

In addition, when the detected total voltage is lower than the voltage capable of charging three batteries and the voltage capable of charging two batteries, the controller 70 blocks the switches 1 910 and 2 920 as shown in FIG. Control to connect 3 (930) and switch 4 (940).

As such, by controlling the plurality of switches 910, 920, 930, and 940 according to the total voltages detected by the plurality of voltage detectors 50, the generation efficiency can be greatly reduced, and power generation efficiency can be greatly improved.

In addition, the controller 70 may determine whether each solar cell module is defective based on a result of comparing the voltage of each solar cell module detected by the plurality of voltage detectors 50 with a predetermined voltage.

The predetermined voltage is preferably an average voltage of each solar cell module or a voltage of adjacent solar cell modules of each solar cell module.

If the controller 70 determines whether the solar cell module is defective, the controller 70 may output it to a separate display unit or transmit it to a terminal of an administrator through a communication network.

As described above, the controller 70 determines whether or not each solar cell module is defective and outputs it. By detecting and maintaining a failure of the solar cell module at an early stage, the efficiency of the power generation can be suppressed and the efficiency can be maximized.

10: solar cell module,
30: battery module,
310,320,330,340: storage battery,
50: voltage detection unit,
70: control unit,
910,920,930,940: switch

Claims (5)

A plurality of solar cell modules connected in series;
A storage battery module configured to charge electric power generated from the plurality of solar cell modules and have a plurality of storage batteries connected in series;
A plurality of voltage detectors respectively detecting voltages of the plurality of solar cell modules;
A plurality of switches each provided between the plurality of batteries so as to be charged in a state in which one or more of the batteries are excluded;
And a controller controlling the plurality of switches according to the total voltages detected by the plurality of voltage detectors.
The control unit compares the chargeable voltage for each number of accumulators of the battery module with the total voltages detected by the plurality of voltage detectors, calculates the number of chargeable accumulators, controls the plurality of switches based on a calculated value, and controls the plurality of switches. The solar cell power generation system, characterized in that to determine whether each solar cell module is defective on the basis of the result of comparing the voltage of each solar cell module detected by the voltage detector of the predetermined voltage.
The method of claim 1,
The predetermined voltage is a solar cell power generation system, characterized in that the average voltage of each solar cell module.
The method of claim 1,
The predetermined voltage is a solar cell power generation system, characterized in that the voltage of the adjacent solar cell module of each solar cell module. delete delete

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