KR20070001317U - Solar Energy Generating Device - Google Patents

Abstract

The present invention includes a solar cell module for converting light energy transmitted from the sun into electrical energy on the water structure including a water structure at which the lodging is simultaneously performed together with a leisure facility, a theater, and a cafe that can be used in the water. Use, but without the need for a separate tilting device and an expensive sensor for tilting the solar cell module by allowing the above-mentioned water structure to rotate on the water surface toward the sun by time unit, the optimal resting space for users on board the water structure In addition to providing electricity through solar cell modules, electricity is supplied to leisure facilities, theaters and cafes located on water structures, and the surplus of electricity generated is sold to solar panels installed on water structures with economic effects. Provides a photovoltaic device.

Water structures, solar, energy, power generation

Description

Solar Energy Generating Device Installed in Floating Structures

The present invention relates to a photovoltaic device installed in a water structure in which a solar cell module is installed on a reservoir or a river, and the power generation is performed using solar light together with leisure leisure in the above water structure.

In general, the photovoltaic power generation refers to a power generation method that converts sunlight directly into electric power by a solar cell. Unlike solar power generation, which receives energy from sunlight and generates energy by using heat, photovoltaic power generation is different in that electricity is directly generated from a solar cell made of a semiconductor material by receiving sunlight.

The photovoltaic power generation is a power generation method using a solar cell that generates photovoltaic power by photoelectric effect when light is irradiated. The general configuration is a module composed of a solar cell, a storage battery, and a power conversion. It consists of a device. Examples of solar cells include selenium photovoltaic cells using copper and metal sulfide photovoltaic cells, silicon photovoltaic cells using semiconductor pn junctions, and the like.

The photovoltaic power generation is classified into a fixed type, a fixed variable type, a short type, and a biaxial type according to the installation form of the solar cell module.

The fixed type is a solar cell module fixedly installed toward the south, the solar light module is effectively developed in the afternoon sunlight, but the problem of the lack of power generation for the sunlight irradiated from the side wall, but the cost is low At the same time, as many power generation efficiencies as desired are difficult to expect.

In the case of the stationary variable type, the solar cell module is fixed toward the south, and divided into several times a year to change the angle of the solar cell module.

The short axis type uses a method in which the angle of the solar cell module changes from east to west in units of time, and the double axis type uses a separate sensor attached so that the solar cell module can automatically tilt along the sun's trajectory. to be.

The above-mentioned photovoltaic power generation method has excellent efficiency in the order of biaxial type> short axis type> fixed variable type> fixed type from the point of view of efficiency.However, in terms of installation cost, it has a reverse order relationship, resulting in high efficiency photovoltaic power generation with low installation cost. Coping measures were found.

The purpose of the present invention is to install a solar cell module capable of generating electricity on the water structure, and supply the electrical energy generated by the solar cell module to leisure facilities and other facilities installed in the water structure, as well as fixed solar cell module form It is to provide a photovoltaic device installed on the water structure that can achieve the economic effect through the surplus power by performing the generation of electrical energy as short as the efficiency while using the.

In order to achieve the above object, the photovoltaic device installed on the water structure according to the present invention is located on the surface of the water and is provided with a water structure at the same time staying at the same time with the leisure facilities, theaters and cafes available in the water, A solar cell module connected to a plurality of solar cells on a structure to convert light energy irradiated from the sun into electrical energy; A movable part installed on the water structure to rotate the position of the water structure along the trajectory of the sun to maintain the angle between the solar cell module and the sun close to a right angle; And said It is configured to include a control unit for controlling the movable part so that the power generation state of the electrical energy input from the solar cell module and the position of the water structure can be rotated to an optimal position along the orbit of the sun.

The solar cell module is configured to be installed on an upper side or a side wall of a ceiling structure in which a ceiling is formed on an upper side of the aquatic structure.

The movable part is spaced apart from the outside of the water structure, one end is connected to a fixed bar fixed in the water, and the other end is wired (Wire) wound a plurality of times on a roller located in the water structure, and the motor shaft connected to the roller through the forward and reverse It is configured to include a drive motor that is rotated in the direction.

The control unit is configured to rotate the water structure by outputting a control signal to the movable unit in units of time.

As described above, the photovoltaic device installed in the water structure according to the present invention is a separate sensor and accessory parts for automatically operating the solar cell module by using a fixed type solar cell module, the solar The light energy is irradiated at an optimal angle between the battery module and the sun, thereby effectively generating power.

In addition, it is possible to supply electricity to the facilities provided in the water structure through electricity generation using solar light at the same time as using the leisure facilities in the water structure, and the surplus power is sold to perform economic profits.

Hereinafter, with reference to the accompanying drawings, a photovoltaic device installed on a water structure according to the present invention will be described with reference to the accompanying drawings.

1 is a view showing a photovoltaic device installed on the water structure according to the present invention, Figures 2a to 2d are attached to the operation state of the photovoltaic device installed on the water structure according to the present invention, Figure 3 is a graph comparing the amount of power generation of the photovoltaic device installed on the water structure according to the present invention and the conventional photovoltaic device, the accompanying Figure 4 is another of the photovoltaic device installed on the water structure according to the present invention It is a graph comparing the power generation amount of the conventional photovoltaic device according to the embodiment.

Referring to FIG. 1, a water structure 2 is provided on the surface of the water and at the same time staying together with a leisure facility, a theater, and a cafe that can be used in the water, and a plurality of solar cells on the water structure 2. Are connected to each other and a solar cell module (Solar Cell Module) 100 for converting light energy irradiated from the sun into electrical energy is installed in the above-described water structure (2).

As shown in FIG. 1, the water structure 2 may be variously changed into a rectangular shape, an elliptical shape, and a circular shape, and is not limited to a specific shape and shape. The solar cell module 100 can be variously changed depending on the size of the water structure (2).

Installed in the water structure 2 to rotate the position of the water structure 2 along the orbit of the sun to maintain the angle between the solar cell module 100 and the sun 3 close to the right angle. The movable part 200 is provided.

The movable part 200 is connected to a fixed bar 10 fixed in the water spaced apart from the outside of the water structure 2, one end of the wire wound on the roller 202 located in the water structure (2) a plurality of times ( Wire (210), and the drive motor 220 is rotated in the forward and reverse directions via a motor shaft connected to the roller 202 is configured. Wires 210 are connected to the fixing bars 10 to extend toward the rollers 202 installed on the water structure 2, respectively, and are configured to be installed on both sides in the width direction of the water structure 2. The wire 210 wound on the roller 202 of the movable part 200 extends outward of at least several tens of meters with the water phase structure 2 and is positioned in a state of being fixed to the fixing bar 10.

Control unit 300 for controlling the movable unit 200 so that the power generation state of the electrical energy input from the solar cell module 100 and the position of the water structure 2 can be rotated to an optimal position along the trajectory of the sun (3). It is configured to include. The control unit 300 receives the power generation amount of each of the solar cell module 100 and controls it, and controls the overall control of the driving direction of the motor shaft installed in the drive motor 220 and the rpm (rpm) of the drive motor 220. Done.

The solar cell module 100 is configured to be installed on an upper side or sidewall of the ceiling structure 20 in which the ceiling is formed on the upper side of the waterborne structure 2.

The control unit 300 is configured to rotate the water-phase structure 2 by outputting a control signal to the movable unit 200 in units of time.

The operation state of the photovoltaic device installed in the water structure according to the present invention configured as described above will be described with reference to the drawings.

1 to 2A, the water structure 2 located on a lake, river or reservoir is a multifunctional complex water leisure space that can be accommodated with water skis, theaters and cafes and can accommodate a small number of people. It is built in size and largely has hundreds of people at the same time for water leisure and various uses. Although the water structure 2 is shown as being made of a two-layer structure in the present invention, it can be produced in a multi-layered form and is not particularly limited to the number of layers.

In the waterborne structure 2 according to the present invention, the solar cell module 100 is positioned to face the south first. That is, the solar cell module 100 according to the present invention is used in a form in which the position is fixed to the upper side of the ceiling structure 220.

Referring to FIG. 2A, when the sun 3 (see FIG. 1) rises and the angle between the solar cell module 100 and the sun is not maintained at right angles, through the solar cell module 100 described above. Since the amount of power generated is reduced, the entire water structure 2 must be rotated on the surface of the water toward the east where the sun rises.

Since the sun 3 rises in the east in the morning, the controller 300 operates the movable part 200 to make the angle between the sun 3 and the solar cell module 100 close to a right angle. Rotation of the water structure 2 according to the present invention is installed in the form of a branched wire 210 to each of the single fixed bar 10, so that one wire is pulled and the other wire is pulled, the water structure 2 is one side Use the principle of rotation in the direction.

In order to operate in this way, the control unit 300 applies an operation signal to the drive motor 220 of the movable unit 200 to rotate the motor shaft. The roller 202 is interlocked by the operation of the drive motor 220 and the wires 210, 210 ′, 210 ″, 210 ′ ″ wound on the roller 202 are different from each other. 2A, the wire 210 is pulled toward the fixing bar 10 in the direction of the arrow shown by the dotted line, and the other wire 210 'is driven in the direction of the arrow. 220).

At the same time, the other wire 210 '' is pulled in the direction of the dotted arrow, and the other wire 210 '' 'is released in the direction of the arrow of the dotted line, so that the solid line on the left and right sides of the water structure 2 is thick. In the direction of the arrow shown by the whole of the water structure 2 is rotated toward the east (East) on the water surface.

Referring to FIG. 2B, the solar cell module 100 and the sun 3 rotate toward the east so that the light irradiated from the sun 3 forms the angle of θ1 to the solar cell module 100. Is delivered). The angle of θ1 has an angle close to a right angle to a right angle to generate power through the solar cell 110 installed in the solar cell module 100 by irradiating the sun light from the sun 3. More solar power is generated than in the direction in which (2) was originally located. In the exemplary embodiment of the present invention, the position of the water structure 2 is described as being rotated at one time toward the east, but the position movement may be performed in the optimal state by the controller 300 in units of time.

As such, the position of the water structure 2 is moved along the sun 3, so that passengers (not shown) boarding the water structure 2 can comfortably appreciate the various scenery around them. As described above, the solar cell module 100 according to the present invention may be installed and used on the upper side of the ceiling structure 20, and may be separately installed on the sidewall to generate power for solar light emitted from the side surface. .

Referring to FIG. 2C, when the position of the sun moves west over time, the water structure 2 should be rotated according to the position movement of the sun.

In order to operate in this way, the control unit 300 applies an operation signal to the drive motor 220 of the movable unit 200 to rotate the motor shaft. The roller 202 is interlocked by the operation of the drive motor 220 and the wires 210, 210 ′, 210 ″, 210 ′ ″ wound on the roller 202 are different from each other. 2C, the wire 210 is wound in the direction of the arrow shown by the dotted line, and the other wire 210 'is released toward the fixing bar 10. As shown in FIG.

At the same time, the other wire 210 '' is released in the direction of the dotted arrow, and the other wire 210 '' 'is pulled in the direction of the dotted arrow, so that the solid wires on the left and right sides of the aquatic structure 2 are thick. In the direction of the arrow shown, the entire aquatic structure 2 is rotated to the west on the surface of the water.

Referring to FIG. 2D, when the water structure 2 is rotated toward the west, the solar cell module 100 and the sun 3 form the angle of θ2 and the light irradiated from the sun 3 is radiated from the solar cell module 100. Is delivered). The angle of θ2 has an angle close to a right angle to a right angle to generate power through the solar cell 110 installed in the solar cell module 100 by irradiating the sunlight 3 from the sun 3. More solar power is generated than in the direction in which (2) was originally located.

As such, the electricity generated in the solar cell module 100 is converted into power available for use in leisure facilities, theatres, and cafes installed in the water structure 2, and the surplus electricity is supplied to a separate converter (not shown). Through the conversion to the commonly used AC power source is supplied to the supply source that requires electrical energy.

With reference to the accompanying Figure 3 will be described with respect to the power generation amount of the photovoltaic device and the existing photovoltaic device installed in the water structure according to the present invention as follows.

As shown in FIG. 3, when the fixed power generation amount is assumed to be 100%, the fixed variable type has 104% power generation, the present invention has 113% power generation, and the short form shows 115% power generation. It can be seen that the biaxial type having the highest generation amount has a generation amount of 125%.

Therefore, it can be seen that the photovoltaic device installed in the water structure according to the present invention has a fixed form, but has a power generation amount similar to that of a uniaxial type, and thus more efficient photovoltaic power generation is achieved.

4 is a graph comparing the amount of power generation of the conventional photovoltaic device according to another embodiment of the photovoltaic device installed in the water structure according to the present invention.

Referring to the accompanying Figure 4, the solar cell module 100 according to the present invention can be used as fixed as described above, installed in the form of a fixed variable type that can adjust the angle of inclination toward the sun by season or quarter When the structure 2 is rotated in units of time, the present invention is positioned between the power generation of the uniaxial type and the biaxial type so that the power generation amount is superior to that of the fixed type described above, and thus more surplus electricity can be produced.

1 is a view showing a photovoltaic device installed on a water structure according to the present invention.

2a to 2d are attached to the operation state of the photovoltaic device installed in the water structure according to the present invention.

Attached Figure 3 is a graph comparing the amount of power generation of the photovoltaic device and the conventional photovoltaic device installed in the water structure according to the present invention.

4 is a graph comparing the amount of power generation of the conventional photovoltaic device according to another embodiment of the photovoltaic device installed in the water structure according to the present invention.

* Description of the symbols for the main parts of the drawings *

2: water structure 3: the sun

100: solar cell module 200: movable part

210: wire 220: drive motor

300: control unit

Claims (4)

The water structure is located on the surface of the water and is equipped with water facilities that stay at the same time with the leisure facilities, theatres, and cafes that can be used in the water. On the water structure, a plurality of solar cells are connected to each other to radiate light energy from the sun. Solar cell module (Solar Cell Module) to convert to; A movable part installed on the water structure to rotate the position of the water structure along the trajectory of the sun to maintain the angle between the solar cell module and the sun close to a right angle; And remind Solar power installed in the water structure, characterized in that it comprises a control unit for controlling the movable part so that the power generation state of the electrical energy input from the solar cell module and the position of the water structure can be rotated to an optimal position along the orbit of the sun. Power generation device. According to claim 1, The solar cell module is installed on the upper structure or the side wall of the ceiling structure in which the ceiling is formed on the upper surface of the solar cell power generation device, characterized in that installed. According to claim 1, The movable part is spaced apart from the outside of the water structure, one end is connected to a fixed bar fixed in the water, and the other end is wired (Wire) wound a plurality of times on a roller located in the water structure, and the motor shaft connected to the roller through the forward and reverse Photovoltaic device installed on the water structure, characterized in that it comprises a drive motor that rotates in the direction. According to claim 1, The control unit is a photovoltaic device installed on the water structure, characterized in that for rotating the water structure by outputting a control signal to the movable unit in units of time.

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