KR200413067Y1 - solar generation of electricity vertical - Google Patents

Abstract

The present invention relates to a photovoltaic vertical (solar generation of electricity vertical) made by using a vertical vertical window (vertical) currently used to collect the photovoltaic power generation.

According to the present invention, an array in which solar cells can be collected in series is formed into a vertical wing (rubber), and a hard back cover and protection to protect it. Molding will be formed. In addition, a connection terminal (+,-) for supplying electricity (electrons) generated from the array to the load is formed on one side of the bottom surface of the photovoltaic vertical wing. This may be installed in the upper part, but the lower part is connected to each other due to the nature of the window shade vertical is to use this. The photovoltaic vertical thus formed is electrically connected to the connection terminals (+,-) by a wire to complete the solar generation vertical (solar generation of electricity vertical). At this time, since the arrays are preferably connected in series due to the characteristics of the photovoltaic power generation, it is preferable that the individual photovoltaic vertical wing (Luba) connection terminals (+,-) are installed so that the former and the latter are opposite to each other.

Cell, Array, Photovoltaic Power Generation, Vertical, Wing (Luba), Series Connection, Connection Terminal (+,-), Clean Energy, Energy Saving, Inverter, Thin Film Solar Cell Module

Description

Solar power generation vertical {solar generation of electricity vertical}

Figure 1 is a perspective view showing a vertical (vertical) for the window shade, a perspective view showing the structure and coupling thereof.

Fig. 2 is a perspective view showing the principle of photovoltaic power generation (2-1) and array configuration (2-2) of a cell.

3 is a perspective view illustrating a system diagram in which photovoltaic power generation supplies electricity to a load.

Figure 4 is a perspective view showing the configuration of a solar generation vertical (solar generation of electricity vertical) according to the present invention.

5 is a perspective view illustrating an example in which a solar generation vertical (solar generation of electricity vertical) according to the present invention is installed in a window.

<Explanation of symbols for the main parts of the drawings>

1: head rail

2: Ceiling hook (bracket)

3: wall hook

4: Link Chain (Link Chain)

5: Chain (rotating direction adjustment)

6: code (move left and right)

7: wings (Luba)

8: fixed core (bottom side)

9: faucet (carrier / hook)

100: array, photovoltaic vertical wing

200: protective molding

300: Connection terminal (+,-)

400: connection terminal connection wire

The present invention relates to a solar generation vertical (solar generation of electricity vertical), and more specifically, the array in which a cell (vertical) that can collect the sunlight (vertical) that is commonly used in general is connected in series ( The array is formed into a vertical wing (rubber), and a hard back cover and a molding are formed to protect the array, and electricity generated from the array is A connection terminal (+,-) for supplying a load is formed on one side of the bottom surface of the photovoltaic vertical wing (Luba), and the individual photovoltaic verticals are wired to the above connection terminals (+,-). It is related to the vertical generation (electrical) of the solar generation (electrical power generation) that can generate electricity by using the solar light as well as the vertical (vertical) function to cover the window by electrical connection.

Vertically used window shades (vertical), which are currently used in general, have been used as an interior concept to create a window shade and an indoor atmosphere. However, there was no product to add other functions through this, and the vertical window for the window shade that is opened and closed automatically is now produced by the sensor using the solar light. However, no product wanted to produce clean energy using sunlight by using vertical for window shades. Although solar energy is only obtained through window glass, it is a very good way to use solar energy using window shade vertical because it has fatal consequences that obscure the external view. .

At present, many efforts are being made to produce pollution-free energy using natural clean energy. Overseas developed countries have already developed many systems using natural clean energy, but our country is still insufficient. There can be a lot of clean energy, but it can easily be photovoltaic, wind, tidal, and hydroelectric. Among them, wind power generation has a disadvantage in that energy production is dependent on the amount of wind, so it is not possible to produce energy without a suitable place. However, solar power is characterized by the ability to easily produce energy wherever it is not very cloudy. However, current technology does not satisfy solar energy utilization efficiency. Moreover, Korea can be said to lag far behind other developed countries. However, it is expected that they will be able to stay ahead of them through better technology development, and in particular, technologies for maximizing energy utilization efficiency as well as development of various products using tandem energy use will be advanced.

Therefore, the present invention has been devised to solve the above problems, and its purpose is to produce electrical energy using external solar energy as well as directing the indoor atmosphere by using vertical for the window shade. To provide a solar generation of electricity vertical.

In order to achieve the above object, the present invention is to form an array (100) (vertical) (arba) (7) in which the array (array) in which the cells that can collect sunlight (series) connected in series, and to protect it Connection terminals (+, for forming a hard back cover and a protective molding (200) and supplying electricity (electrons) generated from the array (100) to the load (+, -) 300 will be formed on one side of the bottom surface of the photovoltaic vertical wing (Luba) (100). The photovoltaic vertical 100 is completed by electrically connecting the photovoltaic vertical 100 to the connection terminal (+,-) 300 with a wire 400. It has the characteristic to become.

When described with reference to the accompanying drawings a preferred embodiment of the present invention as follows.

EXAMPLE

Figure 1 is a perspective view showing a vertical (vertical) for the window shade, a perspective view showing the structure and coupling thereof.

Fig. 2 is a perspective view showing the principle of photovoltaic power generation (2-1) and array configuration (2-2) of a cell.

3 is a perspective view illustrating a system diagram in which photovoltaic power generation supplies electricity to a load.

Figure 4 is a perspective view showing the configuration of a solar generation vertical (solar generation of electricity vertical) according to the present invention.

5 is a perspective view illustrating an example in which a solar generation vertical (solar generation of electricity vertical) according to the present invention is installed in a window.

In order to form the solar generation vertical (solar generation of electricity vertical) of the present invention as described above, the vertical (vertical) wing of the array (array) 100 is connected to the cell (cell) that can collect solar (Luba) (7), to form a hard back cover (back cover) and a protective molding (moulding) (200) is formed, the electricity (electrons) generated from the array (array) (100) Connection terminals (+,-) 300 for supplying the load to the photovoltaic vertical wing (luba) 100 is formed on one side of the bottom surface. The photovoltaic vertical 100 is completed by electrically connecting the photovoltaic vertical 100 to the connection terminal (+,-) 300 with a wire 400. Let's go.

The solar generation vertical (solar generation of electricity vertical) thus formed can supply electricity to an AC load through an inverter (DC to AC conversion) as shown in the schematic diagram of FIG. 3 and also accumulate electricity to a battery. Let's go. Of course, the system can be linked and used together with other electric systems. The PV vertical is easy to install and easy to connect with other systems. Especially, if the array is dirty, the solar utilization will be reduced, so it is good to clean it frequently. Can give It can also be easily and conveniently implemented if a resident wants to move or replace the system. In particular, if the failure is due to the need to replace or repair the photovoltaic vertical wing (Luba) 100 has a good advantage in terms of maintenance.

For example, the electricity generation capacity of photovoltaic vertical installed in the balconies of 40 pyeong living room of an apartment is calculated using the current flat photovoltaic technology.

Living Room Balcony Full Length 12 m

If living room balcony window height 2.3 m

In case of 2.5W of electricity that one 5 inch cell can produce

96 5 inch cells are used to produce 240W of electricity.

Adding a simple example to this would result in turning on 7 to 8 32 W fluorescents. However, it seems that more energy can be produced if the current technology is developed. In addition, various technologies such as thin-film solar cell modules are being developed, and the future prospects and applications will be bright.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be apparent to those who have knowledge.

As described above, according to the present invention, the dependency on fossil fuel energy can be reduced, and clean pollution-free energy can be easily obtained. In addition to maintaining the function of the existing vertical, there is an effect that can create an indoor atmosphere using the back of the photovoltaic vertical. In addition, according to the present invention, it is possible to have a low-cost easy photovoltaic power generation system, easy to connect with other power generation system, there is an effect of easy maintenance and management. In addition, it is easy to replace the new technology development.

Claims (3)

Solar generation of electricity vertical, characterized in that to form a vertical array (array) (array) (7) in which an array (100) connected in series to the cells that can collect sunlight (solar) ). The photovoltaic vertical of claim 1, wherein a hard back cover and a molding are formed to protect the array 100. electricity vertical). The method of claim 1, wherein the connection terminal (+,-) 300 for supplying electricity (electrons) generated from the array (array) to the load (load) photovoltaic vertical wing (Luba) (100) It is formed on one side of the bottom surface, characterized in that the individual solar PV vertical 100 formed in this way is electrically connected to the connection terminal (+,-) 300 by a wire (400). Solar generation vertical (solar generation of electricity vertical).

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