KR20160005613A - Photovoltaics System - Google Patents

Abstract

The present invention relates to a solar light power generation system. The solar light power generation system comprises: a solar cell panel made of strings to generate the electricity by collecting solar light incident from the outside; a frame covering an outer peripheral portion of the solar cell panel; positive (+) and negative (-) electrodes which are connected in series to the solar cell panel and withdrawn to the outside along the inside of the frame; an inverter which is connected to the positive (+) and negative (-) electrodes, and converts the electricity generated from the solar cell panel and outputs the converted electricity; and an offset box which is connected to the positive (+) and negative (-) electrodes, and applies a positive (+) voltage and a negative (-) voltage respectively to the negative (-) electrode and the positive (+) electrode when the solar cell panel does not produce electricity so as to prevent polarization of the solar cell panel. The offset box includes an air ion meter for measuring negative ions in the air, required for real-time state determination to control the operating point.

Description

[0001] Photovoltaic system [0002]

The present invention relates to a solar photovoltaic power generation system, and more particularly, to a solar photovoltaic power generation system capable of preventing a discharge phenomenon through a ground portion and a PID (Porous Induced Degradation) of an array when a solar photovoltaic power generation device installed outdoors does not generate electricity at night or in a low- To a solar power generation system.

Alternative energy is being developed as fossil fuels such as petroleum and coal are depleted. Especially, energy resources utilizing solar energy are being actively developed.

Power generation technologies that utilize solar energy to generate electricity include solar power generation that uses solar heat to drive a heat engine to generate electricity, and solar power that generates electricity from solar cells using solar light.

In addition, when the solar cell is used outdoors, it is subjected to various harsh environments. Therefore, in order to protect a large number of cells connected with a necessary unit capacity in a harsh environment, a solar cell module having a plurality of cells is used.

However, when the solar cell module is installed at such a low weather or at a very low temperature in accordance with the climatic conditions of the area where the solar cell module is installed, an excessive output reduction rate occurs in a state in which the solar cell module does not show any external characteristic, The leakage current is generated in the frame due to the voltage generated from the solar cell module due to the frame grounding to prevent the damage caused by the damage of the frame.

Korean Patent Publication No. 10-2011-0090378 (published on Aug. 10, 2011)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a solar power generation system which blocks a leakage current generated through a frame grounded to a solar cell panel, have.

According to an aspect of the present invention, there is provided a solar power generation system comprising: a solar cell panel including a string for collecting sunlight incident from the outside to generate electricity; A frame surrounding the outer periphery of the solar cell panel; (+) And (-) electrodes connected in series to the solar cell panel and drawn out to the outside along the inside of the frame; An inverter connected to the (+) and (-) electrodes to convert electricity produced from the solar cell panel and output the electricity; A positive voltage is applied to the negative electrode and a negative voltage is applied to the negative electrode of the solar cell panel when the solar cell panel is not powered, Wherein the offset box includes an air ion meter for measuring an anion in the air required for real-time condition determination for controlling the starting point of time .

The frame may include a ground portion formed of a metal material and electrically connected to the frame to electrically ground the frame.

The offset box may prevent discharging through the frame according to the installation position of the solar cell panel or climatic conditions, and may prevent and restore polarization by applying a reverse voltage.

And a detector for detecting a polarization phenomenon at the grounding unit to cut off the discharge.

According to the photovoltaic power generation system of the present invention, the leakage current is blocked at the ground portion of the frame, which is configured to surround one side of the solar cell panel constituting the photovoltaic power generation system, and corrosion and deterioration And the like, so that problems can be detected quickly and maintenance can be performed.

1 is an enlarged view showing an enlarged circuit diagram of a solar power generation system according to an embodiment of the present invention.
2 is a block diagram showing a block diagram of the solar power generation system shown in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms and words used in the specification and claims should not be construed to be limited to ordinary or dictionary meanings, and the inventor should properly define the concept of the term to describe it in its best mode with its own invention It should be construed in the meaning and concept consistent with the technical idea of the present invention.

FIG. 1 is an enlarged view showing an enlarged circuit diagram of a solar power generation system according to an embodiment of the present invention, and FIG. 2 is a block diagram showing a block diagram of the solar power generation system shown in FIG.

1 and 2, the solar power generation system 100 includes a solar cell panel 110 for collecting sunlight incident from outside to generate electricity, A plurality of solar cells 120, and a substrate, a film, or a protective glass for protecting the solar cell 120, and may be configured to surround the outer circumferential surface of the solar cell 120 A grounding part 122 having a wire shape and being formed of aluminum or the like and electrically grounded to the connection point of the frame 120, An offset box 200 that prevents discharge through the grounding unit 122 and applies a reverse voltage to prevent and restore polarized phenomenon, and an offset box 200 in which the generated electric power generated in the form of a direct current in the solar cell panel 110 is alternately Conversion to It is constructed by an inverter 300, which converts into an electrical form.

In the photovoltaic power generation system 100, the solar cell panels 110 are arranged horizontally and vertically four by three horizontally, so that a total of twelve solar cell panels 110 are provided to output about 3 Kw The number of the solar panels 110 is related to the entire solar power generation capacity, and the arrangement and shape of the solar panels 110 can be changed accordingly.

Although not shown in the drawing, the solar cell panels 110 are formed in a plurality of patterns in a lattice pattern and laterally spaced so as to form a gap between adjacent solar cell panels so that wind or snow can move. .

In addition, the solar cell panel 110 may be spaced apart from the other solar cell panels in the zigzag direction so that a difference in height may occur between them.

The solar cell panel 110 is divided into a time when there is sunlight such as daytime and a time when there is no sunlight such as a nighttime. In the time of sunlight, solar power generation is performed to generate effective solar power by solar power generation And can not generate effective solar power when the solar discharge can not be performed. As described above, since the solar power generation is not constantly performed depending on the presence or absence of sunlight, the maximum power point tracking that tracks the maximum power point among the powers generated by the solar cell panel 110 So that the maximum power can be generated.

The solar battery cell 120 is provided with a transparent substrate containing glass or a transparent plastic resin and is bonded to a transparent substrate in accordance with a light-transmitting adhesive such as a resin, and a non-light receiving surface, such as a Teflon film or PVF Fluoride film, PET (Poly-Ethylen Terephthalate) film or the like. The solar cell 120 may be made of a single crystal, polycrystalline or amorphous material such as a silicon semiconductor or a compound semiconductor made of gallium arsenide, and the plurality of solar cells 120 may be electrically connected in series .

The frame 121, which is a frame formed of aluminum or the like, is coupled to the outer periphery of the solar cell panel 110, which is stacked from the light-transmitting substrate to the backsheet. When the solar cell 120 is impacted from the end surface of the frame 121, the frame 121 can prevent the impact or prevent foreign substances from entering the solar cell module 120, 110). Here, the frame 121 is manufactured by extrusion molding or roll molding. In addition, an insertion groove is formed in the frame 121, and an end portion of each outer circumferential portion of the solar cell panel 110 is inserted into each groove.

Accordingly, the frame 120 is cut obliquely at a corner of the solar cell panel 110, and the frame 120 is coupled to the frame 120 through a fastening member (not shown) Is fixed to the solar cell panel 110.

Here, the shape of the solar cell panel 110 is not limited, and may be generally rectangular or rectangular.

The grounding part 122 has a wire shape and is formed of aluminum or the like, and is electrically grounded to the connection point so as to prevent the frame 120 from being damaged by an electric shock preventive lightning stroke.

The grounding unit 122 may include an electrode unit (not shown) and an insulation unit (not shown). Here, the insulation unit (not shown) 122 may be composed of a plurality of insulators coupled to each other in a staggered manner to increase the ground path between them and to facilitate assembly. Next, the insulating part (not shown) may be formed of a ceramic material or a Teflon material to increase the density of the plasma generated in the reaction space and to prevent a lower discharge, and preferably a Teflon material desirable. Here, since the insulating portion (not shown) made of Teflon is high in dielectric constant relative to ceramic, it can be expected to have a low thickness (for example, 40 mm or less) and a high insulating effect.

The grounding part 122 is provided on one surface of the solar cell panel 110 irradiated with sunlight so as to be mounted on the plurality of solar cells 120, And a + electrode and an - electrode are formed.

The ground 121 has a potential of 0 V, and the solar cell 120 and the frame 121 are electrically connected to each other. The polarizing phenomenon occurs when electrons are discharged through the grounding part 122 due to the electric voltage of the anode 121. This polarizing phenomenon occurs when a load is connected to the anode of the solar cell 120, The back electromotive force is generated and the electromotive force of the solar cell 120 is lowered.

However, the photovoltaic power generation system 100 is exposed to the outside for a long time, and the interconnector ribbon is oxidized and corroded by various factors such as moisture and the like, so that the resistance is rapidly increased and the power generation efficiency is reduced.

That is, due to external temperature, humidity, etc., the connection portion between the interconnector ribbon and the solar cell 120 is oxidized to increase corrosion and deterioration of the interconnector ribbon, and the series resistance of the solar cell is generated Voltage and current are reduced.

Therefore, in the offset box 200, a potential difference is generated between the solar cell 120 and the frame 121, so that electrons generated in the solar cell panel 110 are not collected and collected by the electrode, The offset box 200 is provided to generate an electromotive force in the opposite direction to prevent a discharge current from flowing to the frame 121, 122 to prevent the polarization phenomenon caused by the leakage current from being discharged from the photovoltaic power generation system 100, and to prevent maintenance of the photovoltaic power generation system 100 from the management of the factors impeding photovoltaic generation such as corrosion and deterioration.

In addition, the offset box 200 may be installed in the solar cell 110 when the solar panel 100 is installed at a low temperature or at a very low temperature, (+) And negative (+) voltages to the electrodes (+) and (-), respectively.

The offset box 200 includes an air ion meter 210 for measuring an anion in the air required for real-time condition determination to control the starting time of the solar cell panel 110.

The inverter 300 converts the direct current power generated by the photovoltaic power generation system 100 into alternating current power suitable for the trunk and converts it into alternating current power using a radio wave bridge circuit based on the magnetic arcing type suppression device Function and AC power to a commercial AC power system through a blocking unit, and the inverter 300 may further include a control / protection unit using a microcontroller.

In addition, the inverter 300 has a DC-DC converter connected upstream of each module, that is, a string, so that the same current or voltage is applied to each output of the DC-DC converter and the output terminal of the DC- The DC-AC converter connected to the inverter 300 may be formed of various circuit configurations (e.g., a DC-DC converter, a DC-DC converter, and the like) Lt; / RTI >

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: solar power generation system 110: solar cell panel
120: solar cell 121: frame
122: ground portion 200: offset box
210: air ion meter 300: inverter

Claims (6)

A solar cell panel comprising a string for collecting sunlight incident from the outside to generate electricity;
A frame surrounding the outer periphery of the solar cell panel;
(+) And (-) electrodes connected in series to the solar cell panel and drawn out to the outside along the inside of the frame;
An inverter connected to the (+) and (-) electrodes to convert electricity produced from the solar cell panel and output the electricity;
A positive voltage is applied to the negative electrode and a negative voltage is applied to the negative electrode of the solar cell panel when the solar cell panel is not powered, And an offset box for preventing polarization of the light beam,
Wherein the offset box includes an air ion meter for measuring negative ions in the air required for real-time condition determination for controlling the starting time. The method according to claim 1,
Further comprising a DC / AC inverter for converting a DC voltage generated by linking an output voltage of the solar cell into an AC voltage. The method according to claim 1,
The frame includes:
Wherein a potential difference for preventing corrosion, that is, a current for preventing corrosion is applied. The method of claim 3,
The frame includes:
And a grounding portion formed of a metal material and electrically connected to the frame to electrically ground the grounding portion. The method according to claim 1,
The offset box includes:
Wherein the solar cell is prevented from discharging through the frame according to the installation position or climatic condition of the solar cell panel, and polarization is prevented and restored by applying a reverse voltage. The method of claim 5,
Further comprising a detection unit for detecting a polarization phenomenon at the grounding unit to block the discharge.

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