KR101257804B1 - A floating body of safety against overturning for a photovoltaic power generation - Google Patents

Abstract

The present invention relates to a buoyancy preventing buoyancy body of a water-based photovoltaic device configured to provide a buoyancy part and a weight part to the buoyancy body to prevent the photovoltaic device installed on the buoyancy body from being lifted up and damaged by wind pressure. In the buoyancy body for installing the photovoltaic device on the water, the buoyancy portion 30 for floating the photovoltaic device on the water is formed on the top or the whole, and the photovoltaic device on the lower portion or the center of the buoyancy portion 30 The weight part 40 that resists the wind pressure acting on the 10 is integrally formed, and the weight part 40 is characterized in that the weight space part 50 through which water can enter is formed.

Description

Anti-conduction buoyancy body for water photovoltaic device {A floating body of safety against overturning for a photovoltaic power generation}

The present invention relates to an anti-conduction buoyancy body of a water-based photovoltaic device, and more particularly, to a weight portion of a photovoltaic device installed on a buoyancy body by lifting up and breaking due to wind pressure. An anti-conduction buoyancy body of a water-based photovoltaic device configured to be prevented by

In general, a solar battery is a photovoltaic cell that converts solar energy into electrical energy, and its application fields include electric clocks, radios, unmanned light towers, unmanned repeaters, buoy lights, satellites, and rockets. It is used. In addition, solar heating houses, fog warning lights that alert drivers when a fog is on the road, and aviation obstacles installed in structures such as transmission towers are also used as solar cell applications.

The solar cell used in this field of application is to connect the cells (Cell, 1 solar cell) and cells in series and as many times as necessary in order to make solar panels, and then to make these solar panels in series and in parallel. Use by connecting.

On the other hand, such solar cells can use the power generated directly during the day when they can receive sunlight, but since the power is not produced at night, the battery is configured and charged to the storage battery during the day to continuously obtain power. Should be used.

In the conventional photovoltaic device, a solar cell panel in which solar cells are connected in parallel in parallel as necessary is fixed at an angle of about 35 degrees toward the south direction. This is to produce the maximum power by making the angle of incidence of the solar light and the solar panel at a right angle in a fixed state.

However, in Korea, the altitude of the sun changes from 12 to 58 degrees in each season, so when the solar panel is fixed, there is a problem that the power productivity is low and the efficiency is low in preparation for the investment cost. Many solar panels are installed on the land which is several kilometers long, and it is difficult to find suitable installation place due to lack of land for installing many solar panels. There was a hard point, and it was hard to find a sunny place.

Therefore, in the case of installing aquatic structures in rivers, lakes or the sea, or installing structures for farming, a buoyant body is floated on the water, and a solar power generator is installed on the buoyant body to solve this problem.

When installing a photovoltaic device in the water, there is a possibility that the photovoltaic device may be lifted due to wind pressure, compared to the case where the photovoltaic device is installed on the ground. The case occurs.

That is, the buoyancy body acts to float the photovoltaic device on the water, but there is a problem that does not prevent the floating on the water surface when the wind pressure acts on the photovoltaic device.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a buoyancy structure that can suppress the photovoltaic device from being lifted by wind pressure as much as possible. have.

And it will act as a load only when the wind pressure acts on the photovoltaic device, and is intended to be configured so that the load does not usually work.

In another embodiment to put the weight portion in the buoyancy body to be configured not to be heard by the weight of the weight portion.

Due to the characteristics of the buoyancy body that is partially submerged in the water, a resistance plate is placed on the lower side of the buoyancy body so that it is configured to resist the rising force by receiving water resistance when the water is heard by wind pressure.

The present invention, in the buoyancy body for installing the photovoltaic device in the water in order to achieve the above object, the buoyancy portion 30 for floating the photovoltaic device on the water is formed on top or as a whole, buoyancy portion 30 The lower portion or the central portion of the weight portion 40 that is formed integrally with the wind pressure acting on the photovoltaic device 10 is formed integrally, the weight portion 40 is a weight space portion 50 can enter the water inside ) Is formed, a plurality of water inlet hole 60 is communicated with the weight space portion 50 is formed in the weight portion 40, by the weight of the water introduced through the water inlet hole 60 Usually, the load does not act as a vertical load on the buoyancy body 20, but when the photovoltaic device 10 is lifted by wind pressure, it acts as a load, or the water inflow hole 60 communicating with the weight space part 50. A plurality of) is formed in the weight portion 40, the central space portion 41 in the center of the weight portion 40 While being formed is separated into two parts, the load does not normally act as a vertical load on the buoyancy body 20 by the weight of water introduced through the water inlet hole 60, the photovoltaic device 10 to the wind pressure When it is heard by the load acts, the horizontal space is easily configured by the central space portion 41, the lifting resistance plate 70 is integrally formed or fixed on the side wall of the weight portion 40, lifting resistance plate 70 is horizontally formed on the side wall of the weight portion 40 is submerged in water, when the buoyancy body 20 is lifted by the wind pressure of the photovoltaic device 10, the lifting resistance plate 70 is in water It provides an anti-conduction buoyancy body of the water-phase photovoltaic device, characterized in that it is configured to be resisted.

In addition, in the buoyancy body for installing the photovoltaic device in the water, a buoyancy portion 30 for floating the photovoltaic device on the water is formed on the upper portion, the photovoltaic device 10 below the buoyancy portion 30 The weight part 40 that resists wind pressure acting on the body is integrally formed, and the weight part 40 has a weight space part 50 formed therein, and an injection hole 45 communicating with the weight space part 50. Is formed outside the weight portion 40, filled with powder or water having a weight through the inlet 45 and sealed with a cover 46, the anti-conduction buoyancy of the water-based photovoltaic device, characterized in that configured to have a weight It provides a sieve, buoyancy portion 30 is formed to float the photovoltaic device on the water, the weight portion 40 is formed on the bottom of the buoyancy portion 30, the weight portion 40 is a wire 43 A water-based solar power plant, characterized in that the weight 42 fixed by the fixed portion 44 is fixed to the buoyancy portion 30 To provide a fall prevention buoyancy body of the tooth.

The present invention has the effect that the weight portion is formed in the buoyancy body can be suppressed as much as possible by the wind pressure of the photovoltaic device.

The weight part of the buoyancy body acts as a load only when the wind pressure acts on the photovoltaic device using water with the photovoltaic device installed, and there is an effect that the load does not usually work.

In another embodiment, the lifting phenomenon is reduced by the weight part formed in the buoyancy body, and the water resistance is lifted by the water pressure when the water is lifted by the wind pressure by the lifting resistance plate of the buoyancy body formed to be submerged in water. It is effective to prevent.

1 is a perspective view showing a state in which a water photovoltaic device is installed in the water.
Figure 2 is a perspective view of the anti-conduction buoyancy body of the water photovoltaic device of the present invention.
3 to 7 are perspective views showing other embodiments of the anti-conduction buoyancy body of the water photovoltaic device of the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

The present invention is a configuration for preventing the photovoltaic device from being conducted by the wind pressure when the photovoltaic device 10 is installed on the buoyancy body 20, the buoyancy portion 30 to the buoyancy body 20 ) And a weight portion 40 integrally with the load is applied to the lower portion of the photovoltaic device 10.

The buoyancy portion 30 of the buoyancy body 20 used in the present invention can be applied to the buoyancy body generally used.

In the buoyancy body 20 of the present invention, as shown in Figure 2, the buoyancy portion 30 for floating the photovoltaic device on the water is formed on top or as a whole, the solar power generation in the lower or central portion of the buoyancy portion 30 The weight part 40 which resists wind pressure acting on the apparatus 10 is integrally formed. The buoyancy body 20 may be formed with a protective case for protecting the buoyancy portion (30).

The weight part 40 has a weight space part 50 through which water can enter and exit is formed in the buoyancy body 20. The water inlet hole 60 has a plurality of weight parts 40 to allow water to enter and exit. Is formed on the outer wall surface of the) is in communication with the inner weight space 50.

When the photovoltaic device 10 is placed on the buoyancy portion 20, the weight portion 40 of the buoyancy body 20 is submerged in the water by the weight of the photovoltaic device 10, the water-based solar light Water in the place where the generator 10 is installed is filled in the weight space 50 through the water inlet hole (60). To this end, it is preferable to form a small through-hole so as to communicate with the upper surface of the buoyancy body 20 and the weight space portion 50, but water is easily introduced into the weight space portion 50, but is not necessary.

In addition, the water inlet hole 60 is formed with a significantly smaller area than the total weight space 50 area, thereby slowing down the rate at which water is introduced or discharged. Therefore, when the buoyancy body 20 is lifted due to wind pressure, water is leaked out late, so that the water inside the weight space 50 acts as a load so that the buoyancy body 20 is not lifted.

Since the water inside the buoyancy body 20 communicates with the external water by the water inlet hole 60, the water does not normally act as a load, but when the photovoltaic device 10 is lifted by wind pressure, the water acts as a load. .

The water inlet hole 60 may be formed in a circular shape as shown in Figure 2, may be formed in a slit shape as shown in Figure 3, the scope of the present invention by the shape of the water inlet hole 60 It doesn't change.

In another embodiment, as shown in FIG. 4, a plurality of water inflow holes 60 communicating with the weight space part 50 are formed in the weight part 40, and the center space part ( 41) is formed can be formed in two parts.

Due to the weight of water introduced through the water inlet hole 60, the load does not normally act as a vertical load on the buoyancy body 20, but when the photovoltaic device 10 is lifted by wind pressure, In this case, the water is concentrated to one side, so it is difficult to maintain the horizontal space so that the center is light and the two sides have a heavy weight.

FIG. 5 illustrates an embodiment in which a load is not applied only by the weight of the weight portion 40 of the buoyancy body 20, but configured to be resisted by water when the buoyancy body is lifted up.

The lifting resistance plate 70 is integrally formed on the sidewall of the weight portion 40 of the buoyancy body 20 or is separately formed and fixed to the outer wall of the weight portion 40. The lifting resistance plate 70 is horizontally formed or fixed on the side wall of the weight part 40 so as to be submerged in water. When the buoyancy body 20 is lifted by the wind pressure of the photovoltaic device 10, the lifting resistance plate ( 70) is configured to resist water.

When the lifting resistance plate 70 is made of a separate plate and fixed, it is preferable that the lifting resistance plate 70 is made of FRP or a metal plate and fixed.

In another embodiment, the content shown in FIG. 6 is a buoyancy portion 30 is formed to float the photovoltaic device on the water, the weight portion 40 is formed on the bottom of the buoyancy portion 30, the weight portion 40 ) Is the weight 42 fixed by the wire 43 is fixed to the buoyancy portion 30 by the fixing portion 44.

The weight of the weight 42 is fixed to a sufficient weight to prevent the photovoltaic device 10 from being conducted by the wind pressure, the value of this weight is determined by calculating the average wind pressure acting on each region. In addition, the buoyancy capacity of the buoyancy portion 30 is also formed in consideration of the weight of the weight and the weight of the photovoltaic device.

In FIG. 7, as the weight part 40 is integrally formed, the buoyancy part 30 is always formed on the buoyancy body 20 to float the photovoltaic device on the water, and the solar light is below the buoyancy part 30. The weight part 40 which resists the wind pressure acting on the generator 10 is integrally formed. In this embodiment, the weight part 40 has a weight space part 50 formed therein, and an injection hole 45 communicating with the weight space part 50 is formed outside the weight part 40.

Powder having a weight, that is, metal or sand is injected through the injection hole 45 or water is filled through the injection hole 45 and is configured to have a weight by sealing with a cover 46.

Therefore, in the embodiment shown in Figures 6 and 7, the weight is fixedly applied to the buoyancy body 20 to prevent the photovoltaic device 10 from being conducted by the wind pressure, so the buoyancy ability of the buoyancy portion by calculating the weight of the weight portion in advance. Form to have.

10: photovoltaic device 20: buoyant body
30: buoyancy part 40: parts by weight
41: central space part 42: weight
43: wire 44: fixing part
45: inlet 46: cap
50: weight space 60: water inlet hole
70: lifting resistance plate

Claims (6)

delete The buoyancy portion 30 for floating the photovoltaic device on the water is formed in the upper portion or as a whole, the weight portion 40 to resist the wind pressure acting on the photovoltaic device 10 in the lower or central portion of the buoyancy portion 30 In the anti-conduction buoyancy body of the water-based photovoltaic device is formed integrally,
The weight part 40 is formed with a weight space part 50 through which water can enter and exit, and a plurality of water inlet holes 60 communicating with the weight space part 50 are formed in the weight part 40. Due to the weight of water introduced through the water inlet hole 60, the load does not normally act as a vertical load on the buoyancy body 20, but when the photovoltaic device 10 is lifted by wind pressure, it acts as a load. Anti-conduction buoyancy body of a water-based photovoltaic device, characterized in that.
The buoyancy portion 30 for floating the photovoltaic device on the water is formed in the upper portion or as a whole, the weight portion 40 to resist the wind pressure acting on the photovoltaic device 10 in the lower or central portion of the buoyancy portion 30 In the anti-conduction buoyancy body of the water-based photovoltaic device is formed integrally,
The weight part 40 is formed with a weight space part 50 through which water can enter and exit, and a plurality of water inlet holes 60 communicating with the weight space part 50 are formed in the weight part 40. , The central space portion 41 is formed in the center of the weight portion 40 is formed in two parts, the load is normally perpendicular to the buoyancy body 20 by the weight of the water introduced through the water inlet hole 60 It does not act as a load but acts as a load when the photovoltaic device 10 is lifted by wind pressure, and conduction of the water-based photovoltaic device is characterized in that the horizontal space is easily maintained by the central space 41. Prevent buoyancy.
The method according to claim 2 or 3,
The lifting resistance plate 70 is integrally formed or fixed to the side wall of the weight part 40, and the lifting resistance plate 70 is horizontally formed on the side wall of the weight part 40 so as to be submerged in water. When the 20 is heard by the wind pressure of the photovoltaic device 10, the anti-conduction buoyancy of the water-based photovoltaic device characterized in that the lifting resistance plate 70 is configured to be resisted by water. Buoyancy body.
In the buoyancy body for installing the photovoltaic device in the water,
A buoyancy portion 30 is formed on the top to float the photovoltaic device on the water, and the weight portion 40 that resists the wind pressure acting on the photovoltaic device 10 below the buoyancy portion 30 is integrally formed. Is formed, the weight portion 40 is the weight space portion 50 is formed therein, the injection hole 45 communicating with the weight space portion 50 is formed on the outside of the weight portion 40, having a weight or Filling the water through the inlet 45 and sealed with a cover 46, the anti-conduction buoyant body of the water photovoltaic device, characterized in that configured to have a weight.
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