KR101591951B1 - Power saving apparatus and solar power generation system having the same - Google Patents

Abstract

The present invention relates to a power saving device and a photovoltaic power generation system having the same to refrain from wasting electricity because of the operation of a connection box when sunshine is little. The present invention offers the power saving device of the photovoltaic power generation system comprising an information collection unit and a control unit. The information collection unit collects necessary information to calculate an amount of sunshine. The control unit calculates an amount of sunshine based on information collected by the information collection unit. Depending on the amount of sunshine, the control unit performs either a photovoltaic power generation mode or a power saving mode.

Description

The present invention relates to a power saving apparatus and a solar power generation system having the same,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar power generation system, and more particularly, to a power saving device capable of suppressing power waste due to solar power generation when the amount of sunshine is small and a solar power generation system having the same.

Since the amount of fossil energy that is widely used is limited, it is depleted and some pollutants are emitted sometime. Therefore, most countries are developing alternative energy that can be used instead.

The energy that can replace the fossil energy includes tidal power to generate energy using a tidal-ash tidal wave, wave to generate energy using waves, wind to generate energy using wind power, and heat in the ground Geothermal energy to generate energy, and solar energy as the source of these energies.

Photovoltaic generation that produces such solar energy refers to a system that converts solar energy into electrical energy and generates electricity. The dc electric energy generated by the photovoltaic power generation is converted into alternating electric energy through a power conversion device such as an inverter.

The generated electricity is supplied to the load side in connection with the KEPCO system, and the remaining electric power is transmitted to the KEPCO system. The shortage of electricity is supplied by KEPCO.

When a system is constructed in connection with the system, a solar cell module is used in the form of an array. In the connection box, a circuit group for connecting the solar cell module is built in. In the connection box, Respectively.

Such a power conversion apparatus consumes electric power supplied from KEPCO when converting the DC electric energy received from the solar cell module into AC electric energy.

Korean Registered Patent No. 10-1425022 (July 24, 2014)

Therefore, when the amount of power supplied from the solar cell module to the power conversion apparatus and converted is smaller than the power usage amount used in the power conversion apparatus, power is wasted in the solar power generation. Such power wastage occurs when the amount of sunshine is small, for example, on a rainy or cloudy day, or before sunrise after sunset.

Accordingly, it is an object of the present invention to provide a power saving device capable of stopping solar power generation when the amount of sunshine is small and capable of suppressing power consumption due to operation of the power conversion device, and a solar power generation system having the power saving device.

In order to achieve the above object, the present invention provides a power saving device for a solar power generation system including an information collection unit and a control unit. The information collecting unit collects information necessary for calculating the amount of sunshine. The control unit calculates the amount of sunshine based on the information collected by the information collecting unit, and performs one of the solar power generation mode and the power saving mode according to the calculated amount of sunshine.

The power saving device of the photovoltaic power generation system according to the present invention may further include a switching unit for connecting electric energy output from the plurality of solar cell modules and transmitting the electric energy to one of an energy storage system (ESS).

At this time, when the calculated amount of sunshine exceeds the reference sunshine amount, the control unit may perform a solar power generation mode in which the electric energy outputted from the plurality of solar cell modules is connected to the switching unit to generate electricity.

The control unit may perform a power saving mode in which the electric energy output from the plurality of solar cell modules is transmitted to the energy storage system through the switching unit when the calculated amount of sunshine is equal to or less than the reference sunshine amount.

In the power saving apparatus of the solar power generation system according to the present invention, the control unit stops the operation of the connection box in the power saving mode.

In the power saving device of the photovoltaic power generation system according to the present invention, the reference sunshine quantity is generated by a plurality of solar cell modules connected to the connection box and an amount of electric power required for driving the power conversion device connected to the connection box It may be the amount of sunshine required.

In the power saving apparatus of the solar power generation system according to the present invention, the control unit may stop the operation of the connection box and the power conversion apparatus in the power saving mode.

In the power saving apparatus of the solar power generation system according to the present invention, the information collecting unit may include a horizontal surface irradiation dose gauge, a slope irradiation dose gauge, a solar cell surface temperature sensor, a humidity sensor, a GPS receiver, a clock or a weather information collector.

The present invention also provides a solar power system comprising a plurality of solar cell modules, a junction box, an energy storage system, and a power saving device. The plurality of solar cell modules convert solar energy into electric energy and output the same. The connection box couples electric energy output from the plurality of solar cell modules to a plurality of connected power conversion devices. The power saving device performs one of a solar power generation mode in which electrical energy output from the plurality of solar cell modules is connected to the power storage device in accordance with the amount of sunshine, and a power saving mode in which operation of the connection case is stopped.

In the solar power generation system according to the present invention, the power saving device may include an information collecting unit for collecting information necessary for calculating the amount of sunshine, and a control unit for calculating the amount of sunshine based on the information collected by the information collecting unit, A power generation mode, and a power saving mode.

In the photovoltaic power generation system according to the present invention, the power saving device may further include a switching unit that connects electric energy output from the plurality of solar cell modules and transmits the electric energy to one of an energy storage system (ESS) .

At this time, when the calculated amount of sunshine exceeds the reference sunshine amount, the control unit may perform a solar power generation mode in which the electric energy outputted from the plurality of solar cell modules is connected to the switching unit to generate electricity.

When the calculated amount of sunshine is equal to or less than the reference sunshine amount, the control unit may perform a power saving mode for transmitting the electric energy output from the plurality of solar cell modules to the energy storage system through the switching unit and stopping operation of the connection box.

According to the present invention, the power saving device can suppress the power waste due to the operation of the connection box and the power conversion device by stopping the solar power generation when the amount of sunshine is small, that is, by stopping the operation of the connection box and the power conversion device.

The power saving device bypasses the energy storage system (ESS) and stores the electric energy generated from the solar cell module through the switching unit during the power saving mode for stopping the operation of the connection box and the power conversion device. .

The power saving device also has the advantage that the power stored in the energy storage system (ESS) can be utilized as a power source or an emergency power source of the connection box.

1 is a schematic view showing a solar power generation system having a power saving device according to an embodiment of the present invention.
2 is a block diagram showing the power saving device of FIG.
3 is a block diagram showing the information collecting unit of FIG.
4 is a flowchart illustrating a power saving method of a solar power generation system according to an embodiment of the present invention.

In the following description, only parts necessary for understanding embodiments of the present invention will be described, and descriptions of other parts will be omitted to the extent that they do not disturb the gist of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor is not limited to the meaning of the terms in order to describe his invention in the best way. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention, so that various equivalents And variations are possible.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing a solar power generation system having a power saving device according to an embodiment of the present invention. 2 is a block diagram showing the power saving device of FIG. And FIG. 3 is a block diagram showing the information collecting unit of FIG.

1 and 2, a photovoltaic power generation system 100 according to the present embodiment is a system for generating photovoltaic energy into electric energy and includes a plurality of solar cell modules 10, a connection box 20, (ESS) 50 and a power-saving device 60, and may further include an electric power system 40. The electric power system 30 includes a power supply system 30, an energy storage system (ESS)

The plurality of solar cell modules 10 are devices for converting solar energy into electric energy and outputting them. The solar cell modules 10 are each provided with a plurality of solar cells arranged in an array. A plurality of solar cell modules 10 output electric power of generated direct current.

The junction box 20 is a device that combines the electric energy converted by the plurality of solar cell modules 10 and outputs the combined electric energy to the power conversion device 30. The junction box 20 is provided with a fuse and a diode in a line of the solar cell module 10. When the electric energy outputted from each solar cell module 10 is coupled and output, a main breaker (MCCB) . The connection box 20 receives and processes signals from various sensors such as a horizontal surface irradiation amount gauge, an inclined surface irradiation amount gauge, a solar cell surface temperature sensor, an outdoor air temperature sensor, and the like, Module may be provided.

The plurality of power conversion apparatuses 30 are devices that receive the direct current electric energy output from the junction box 20 through a power line and convert them into alternating current power. The power converter device includes a main breaker (MCCB) at the front end thereof, an inverter for converting DC power into AC power at the rear end of the main breaker (MCCB), a magnetic switch (MC) at the rear end of the inverter, A main breaker (MCCB) may be provided at the rear end of the magnetic switch (MC).

The KEO system 40 receives the converted AC power from the plurality of power conversion devices 30. The KEPCO system is equipped with an ordinary LV panel, a distribution board, a circuit breaker, and supplies solar power and KEPCO power to the load.

The energy storage system 50 stores electric energy output from the plurality of solar cell modules 10 under the control of the power saving device 60. [ In other words, in general, the electric energy output from the plurality of solar cell modules 10 is output to the junction box 20, but the amount of electric energy output from the plurality of solar cell modules 10 according to the amount of sunshine is the amount of electric power The energy saving device 50 stores the energy saving device 50 under the control of the power saving device 60. [ The electric energy stored in the energy storage system 50 is used as a power source for the power saving device 60.

The energy storage system 50 is an apparatus for storing electric energy and using it when necessary to improve the energy utilization efficiency and induce stabilization of the power supply system. That is, the energy storage system 50 refers to a storage device that can store electric energy as a battery and can be used at any time. The energy storage system (50) is a system for effectively storing and using electric energy, so that there is no room for production of electric energy. It is possible to have.

The energy storage system 50 stores the electric energy that is generated when the amount of sunshine is small and the amount of electric power generated by the solar power is small, for example, on a rainy or cloudy day, It is possible to efficiently use the developed electric power while suppressing power waste due to driving.

The power saving device 60 controls the connection 20, the plurality of power conversion devices 30, and the energy storage system 50 so as not to perform power conversion or perform power conversion according to the amount of sunshine. That is, the power-saving device 60 transmits the electric energy output from the plurality of solar cell modules 10 to the connection box 20 according to the amount of sunshine to thereby generate a solar power generation mode and a power saving mode for stopping the operation of the connection box 20 Mode is controlled.

At this time, it is possible to stop the entire operation of the connection box 10 in the power saving mode, or to selectively stop only some functions. Some of the functions may stop the operation of the module related to the trouble diagnosis function or the communication function of the connection box 10, which consumes a lot of power, for example, when the connection box 10 is operated. In the connection box 10, diagnosis and communication are required when the solar power is generated during the daytime, but there is no need for trouble diagnosis or communication at night when the solar power is not generated. Therefore, power consumption can be suppressed by stopping the module related to the failure diagnosis or communication function of the connection box 10 at the time when the power saving mode such as nighttime is performed.

The power-saving device 60 includes an information collecting unit 61, a switching unit 63, and a control unit 65.

The information collecting unit 61 collects information necessary for calculation of the amount of sunshine and transmits it to the control unit 65. [ The amount of sunshine is closely related to the solar radiation amount, temperature, humidity and time at the place where the solar power generation module 10 is installed. This information is closely related to the weather at the place where the solar power generation module 10 is installed. For example, the information collecting unit 61 includes a horizontal surface solar irradiator 71, an inclined solar irradiator 72, a solar cell surface temperature sensor 73, a humidity sensor 74, a GPS receiver 75, a clock 76, An information collector 77, or the like may be used, but the present invention is not limited thereto. The weather information collector 77 collects weather information through various sites, servers, devices, and terminals.

In this case, the information collecting unit 61 has been disclosed as an example of a separate module, but it may be implemented as a sensor module installed in the connection box 20.

The switching unit 63 transfers electric energy output from the plurality of solar cell modules 10 to the connection unit 20 and the energy storage system 50 under the control of the control unit 65. [ The electric energy output from the plurality of solar cell modules 10 is transferred to the connection box 20 and the energy storage system 50 through the switching unit 63.

The control unit 65 is a microprocessor that performs the overall control operation of the power saving device 60. The control unit 65 calculates the amount of sunshine based on the information collected by the information collecting unit 61 and performs one of the solar power generation mode and the power saving mode according to the calculated amount of sunshine.

The control unit 65 performs one of the solar power generation mode and the power saving mode as follows.

The control unit 65 transmits the electric energy output from the plurality of solar cell modules 10 to the connection unit 20 through the switching unit 63 and outputs the generated sunlight Power generation mode.

However, when the calculated amount of sunshine is equal to or less than the reference sunshine amount, the control unit 65 performs a power saving mode in which the electric energy output from the plurality of solar cell modules 10 is transmitted to the energy storage system 50 through the switching unit 63 . At this time, the control unit 65 stops the operation of the connection box 20 and the power conversion device 30 in the power saving mode.

At this time, the reference sunshine quantity is a sum of solar power required for driving the connection box 20 and the power conversion device 30 connected to the connection box 20, (10).

The control unit 65 performs an SMPS (Switching Mode Power Supply) function for activating or deactivating the connection box 20 and the power conversion apparatus 30, that is, for turning on / off the power supply.

In this manner, when the amount of power generation that can be generated by the calculated sunshine amount is less than the amount of power required for driving the power conversion apparatus 30 connected to the connection box 20, Thereby stopping the operation of the device 30. [ In addition, the control unit 65 can transmit and store the electric energy output from the plurality of solar cell modules 10 in the power saving mode to the energy storage system 50 instead of the connection unit 20 through the switching unit 63. [

The controller 65 controls the plurality of solar cell modules 10 in the solar power generation mode when the amount of power generation that can be generated by the calculated sunshine amount is larger than the amount of power required for driving the power conversion device 30 connected to the connection box 20. [ To the connection box (20), rather than the energy storage system (50), through the switching unit (63). In other words, in the photovoltaic power generation mode, the control unit 65 drives the junction box 20 and the power inverter 30 to perform solar power generation. If the connection box 20 and the power inverter 30 are stopped, the controller 65 operates through switching to perform the solar power generation mode.

The control unit 65 may use the electric energy stored in the energy storage system 50 as a power source of the connection unit 20, the switching unit 63, or the information collecting unit 61. When the electric energy stored in the energy storage system 50 is insufficient, the control unit 65 supplies power to the connection unit 20, the switching unit 63, or the information collection unit 61, You may.

As described above, according to the present embodiment, the power saving device 60 stops the photovoltaic generation when the amount of sunshine is small, that is, by stopping the operation of the connection box 20 and the power conversion device 30, Power consumption due to the operation of the power inverter 30 can be suppressed.

The power saving device 60 is connected to the connection unit 20 via the switching unit 63 and the electric energy generated by the solar cell module 10 during the power saving mode to stop the operation of the power conversion unit 30. [ To the energy storage system 50, thereby saving waste of generated electric power.

The power saving device 60 can be used as a power source or an emergency power source for connecting the electric energy stored in the energy storage system 50 to the switching unit 20, the switching unit 63, the information collecting unit 61 or the control unit 65 have.

The power saving method of the photovoltaic generation system 100 according to this embodiment will be described with reference to FIGS. 1 to 4. FIG. 4 is a flowchart illustrating a power saving method of the solar power generation system according to an embodiment of the present invention.

In a state where a plurality of solar cell modules 10 convert solar energy to electrical energy and output the electrical energy to the switching unit 63, the power saving device 60 in step S81 is required to calculate the amount of sunshine through the information collection unit 61 Collect information. The information required for calculation of the amount of sunshine may include a horizontal surface irradiation amount, an inclined surface irradiation amount, a surface temperature of a solar cell, a humidity, a time, weather information, and the like.

Next, in step S83, the power-saving device 60 calculates the amount of sunshine at the locations where the plurality of solar cell modules 10 are installed based on the collected information.

Next, in step S85, the power saving device 60 determines whether or not the calculated amount of sunshine exceeds the reference sunshine amount.

If the result of the determination in step S85 is exceeded, the power-saving device 60 performs the photovoltaic generation mode in step S87. That is, the power-saving device 60 transmits electric energy output from the plurality of solar cell modules 10 through the switching unit 63 to the connection box 20 and generates electric power. That is, the connection box 20 combines the received electric energy and outputs the electric energy to the electric power conversion device 30. The power conversion device 30 receives the direct current electric energy output from the connection box 20 through a power line and converts the received direct current electric power into AC power.

If the result of the determination in step S85 is not satisfied, the power saving device 60 performs the power saving mode in step S89. That is, the power-saving device 60 stops the operation of the connection box 20 and the power conversion device 30 when the calculated amount of sunshine is equal to or less than the reference sunshine amount. The power saving device 60 transmits and stores the electric energy output from the plurality of solar cell modules 10 to the energy storage system 50, not the connection 20 via the switching unit 63.

It should be noted that the embodiments disclosed in the present specification and drawings are only illustrative of specific examples for the purpose of understanding, and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Solar module
20: Connection box
30: Power converter
40: KEPCO system
50: Energy storage system
60: Power generation management device
61: Information collecting section
63:
65:
100: Solar power system

Claims (9)

An information collecting unit for collecting information necessary for calculating the amount of sunshine at a place where a plurality of solar cell modules are installed;
A control unit for calculating the amount of sunshine based on the information collected by the information collecting unit and performing one of a solar power generation mode and a power saving mode according to the calculated amount of sunshine;
And a switching unit for connecting electrical energy output from the plurality of solar cell modules to one of an energy storage system (ESS)
The information collecting unit,
A surface temperature sensor of a solar cell, a humidity sensor, a GPS receiver, a clock and a weather information collector,
Wherein,
When the calculated amount of sunshine exceeds a reference sunshine amount, the photovoltaic power generation mode in which electric energy outputted from the plurality of solar cell modules is connected to the switching unit and connected to the switching unit,
And a power saving mode for transferring electric energy output from the plurality of solar cell modules to the energy storage system through the switching unit and stopping operation of the connection box and the power conversion apparatus when the calculated amount of sunshine is equal to or less than a reference sunshine amount, Stopping the operation of the module related to the fault diagnosis and communication function of the connection box in the power saving mode,
Wherein the reference sunshine amount is an amount of sunshine required to generate electricity for driving the plurality of power conversion apparatuses connected to the connection box and the plurality of solar cell modules connected to the connection box,
Wherein,
Wherein the electric energy stored in the energy storage system is used as a power supply source of the connection box, the switching unit, or the information collecting unit, including the electric energy stored in the energy storage system, The switching unit, the switching unit, or the information collecting unit. delete delete delete delete delete A plurality of solar cell modules converting solar energy into electrical energy and outputting the same;
A connection box for coupling electrical energy output from the plurality of solar cell modules to a plurality of connected power conversion devices;
A plurality of electric power conversion apparatuses for receiving direct electric energy from the connection box and converting the electric energy into AC power;
A power saving device that performs one of a solar power generation mode in which electric energy output from the plurality of solar cell modules is connected to the solar cell in accordance with the amount of sunshine to generate electricity, and a power saving mode in which the operation of the connection box is stopped;
And an energy storage system (ESS) for storing electric energy output from the plurality of solar cell modules under the control of the power saving device,
The power-
An information collecting unit for collecting information necessary for calculating the amount of sunshine at a place where the plurality of solar cell modules are installed;
A control unit for calculating the amount of sunshine based on the information collected by the information collecting unit and performing one of a solar power generation mode and a power saving mode according to the calculated amount of sunshine;
And a switching unit for transferring electric energy output from the plurality of solar cell modules to one of the connection box and the energy storage system,
The information collecting unit,
A surface temperature sensor of a solar cell, a humidity sensor, a GPS receiver, a clock and a weather information collector,
Wherein,
When the calculated amount of sunshine exceeds a reference sunshine amount, the photovoltaic power generation mode in which electric energy outputted from the plurality of solar cell modules is connected to the switching unit and connected to the switching unit,
And a power saving mode for transferring electric energy output from the plurality of solar cell modules to the energy storage system through the switching unit and stopping operation of the connection box and the power conversion apparatus when the calculated amount of sunshine is equal to or less than a reference sunshine amount, Stopping the operation of the module related to the fault diagnosis and communication function of the connection box in the power saving mode,
Wherein the reference sunshine amount is an amount of sunshine required to generate electricity for driving the plurality of power conversion apparatuses connected to the connection box and the plurality of solar cell modules connected to the connection box,
Wherein,
Wherein the electric energy stored in the energy storage system is used as a power supply source of the connection box, the switching unit, or the information collecting unit, including the electric energy stored in the energy storage system, The switching unit, the switching unit, or the information collecting unit. delete delete

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