KR20140048899A - Energy generating device - Google Patents

Abstract

The present invention relates to an energy generation device and, more specifically, to an energy generation device using sunlight to enable users to effectively and selectively use energy as necessary by selectively using a solar heat collection module for generating thermal energy using sunlight or a PV module for generating electricity using sunlight. The energy generation device may comprise a main body with a space inside, joined to one or more assembling members; a rotation housing on the top of the main body; a driving unit to stop or rotate the rotation housing; and a control unit to control the driving of the driving unit. The rotation housing may include an installation space for a module device for generating energy using sunlight; and a transparent cover part which is connected to a hinge member joined to one side of the rotation housing to open or close the installation space and through which sunlight passes. The PV module for generating electricity using sunlight may be buried in the installation space. The main body may also include a buoyant unit; and a separate water storage unit for storing water inside.

Description

Energy generating device {omitted}

The present invention relates to an energy generating device, and more particularly, it is possible to selectively use a solar cell module for generating electricity using solar light or a solar heat collecting module for generating thermal energy using solar light. The present invention relates to an energy generating device using sunlight that can be effectively selected and used.

Recently, due to global warming and climate change, regulations are being enforced around the world to suppress the emission of carbon dioxide. Therefore, development of a new energy generating device without carbon dioxide emission is required.

There is no emission of carbon dioxide, and the energy generation device using clean energy is a solar energy photothermal field that uses wave characteristics of solar rays. It is used for cooling and heating and hot water supply of buildings through absorption, storage, and heat conversion of solar heat. In addition, the solar heat collecting module that absorbs solar heat and heats the heat medium housed therein has the effect that the heat medium uses air, water, and the like, and also converts cold water into hot water.

In recent years, as the development and installation cost of solar cell (PV) technology that generates electricity by receiving sunlight becomes cheaper, the spread of the solar cell is being expanded.

However, there are various reasons for the efficiency of the conventional solar cell, among which dust or foreign matter accumulates on the glass of the solar cell module transparent cover portion (Physical glass) may physically prevent the transmission of sunlight to reduce the efficiency.

In addition, a photovoltaic device using a solar cell generates a difference in power generation capacity according to the generation area and the amount of sunshine.

FIG. 1 is a perspective view of a conventional photovoltaic apparatus.

Referring to FIG. 1, in the related art, a land having a large area is purchased to install a photovoltaic device 1, and a land is provided to install an installation space for installing the photovoltaic device 1.

Anchor is formed in the installation space by concrete or the like, and the support 10 is provided at appropriate intervals in the anchor.

The strut 10 is formed of a vertical structure, and a frame 20 for coupling the solar cell module 22 to the upper portion thereof is installed.

The solar cell module 22 coupled to the top of the frame 20 generates electricity using sunlight. For this purpose, the frame 20 is inclined so that the solar cell module 22 faces the direction in which the sun is irradiated.

However, in order to install such a photovoltaic device 1 in a large area, there are many limitations in the purchase of land due to the use of enormous lands, and there is a problem in that it costs a lot due to the purchase or compensation of land, In order to install power generation facilities on a large scale, it is difficult to draw cooperation of neighboring residents.

In addition, the photovoltaic device 1 installed on the land as in the prior art generates a large amount of heat in the process of generating electricity by receiving sunlight, and enormous heat from the land on which the photovoltaic device 1 is installed. Is being delivered. The heat transferred to the solar cell power generation device 1 deteriorates the performance of the solar cell module and causes a failure. Thus, the power generation efficiency of the solar cell power generation device 1 is lowered.

In addition, since the conventional photovoltaic apparatus 1 needs to be grounded in order to stably install the pillar 10, and the ground should be constructed with concrete or the like so that the pillar 10 can be installed, Installation costs are becoming an increasing factor.

In addition, in the conventional photovoltaic device 1, the solar cell module is mostly made of a fixed type, and thus, when the position of the sun moves with time, the irradiation angle of the solar light irradiated to the rotating housing is changed. There is a problem that the power generation efficiency is lowered, there is a serious problem that inhibits the development of the solar cell module by reducing the transmission of sunlight due to the dust of algae or sand dust due to sand storms.

An object of the present invention is to solve the problems of the prior art described above, the energy growth value of the present invention to maintain a constant angle of incidence of sunlight by rotating the rotating housing along the sun even if the position of the sun changes with time. This may increase the efficiency of the solar cell module or the solar heat collecting module, and in particular, the rotating housing during the time when energy cannot be produced by sunlight due to bad weather conditions such as sunset time or snow or storm. By fixing the transparent cover of the facing toward the lower surface, it is possible to prevent the sand dust due to the surrounding contaminants or sand storms to adhere to the surface of the transparent cover of the rotating housing, and to form a light diffuser in the rotating housing transparent cover To increase the efficiency of solar cells and to wash and cool the rotating housing To provide an energy-generating device for preventing the efficiency of the solar cell module by lowering the amount of battery overheating protection and cleaning.

According to an aspect of the present invention, the energy growth growth unit is coupled to one or more assembly members, the body having a space therein, the rotating housing is installed on the upper portion of the main body, the drive that serves to stop or rotate the rotating housing Means and control means for controlling the operation of the drive means.

The rotating housing is connected to an installation space portion capable of incorporating a module device for generating sunlight into energy therein, and a hinge member coupled to one surface of the rotating housing to open and close the installation space, and transmits sunlight. It may include a transparent cover portion.

A solar cell module (PV module) for generating electricity by receiving the sun may be embedded in the installation space.

A solar heat collecting module for generating solar heat by receiving sun from the installation space may be embedded.

The transparent cover part may further include a protective film that blocks infrared rays or ultraviolet rays.

The transparent cover part may further include a light diffusing part for collecting and diffusing, scattering and refracting sunlight into the solar cell module.

The driving means may include a driving support member rotatably supporting the rotating housing with respect to the main body, and a driving unit providing a rotational force to the rotating housing.

The control means tracks and rotates the rotary housing along the sun according to the position information of the sun according to the location information of the sun by programming inputted by specific software according to the installation place of the energy generating device, and the front of the rotary housing at sunset time of the sun. The unit may be fixed to the lower surface of the main body until the position sunrise time.

The control means communicates with the wired / wireless control mechanisms installed in the energy generating device using wired or wireless communication equipment (internet, mobile phone, etc.) and can control the driving unit as well as the accessory device.

The control means may include a timer for controlling the operation time of the drive unit.

The driving unit may further include a speed change unit installed between the driving support member and the driving unit to adjust the rotation speed.

The rotating housing may be installed to be inclined to face a direction in which the amount of sunshine of the sun increases.

The main body may further include a height adjusting unit for adjusting the inclined height of the rotary housing.

The upper portion of the main body may be formed to be inclined at an angle corresponding to the rotary housing.

The energy generating growth value may be connected to another energy generating device adjacent to the plurality of energy generating growth values.

The rotatable housing may be formed in plural and rotatably installed on an upper portion of the main body.

The body may be configured to float in the water phase.

The main body may include a buoyancy means disposed on the outer or lower surface.

The main body may include buoyancy means in its internal space.

The body may further include a separate water reservoir for storing water therein.

The upper portion of the water reservoir may further include a filter for filtering foreign substances introduced into the inside.

The water reservoir may further include washing and cooling means for cleaning and cooling the surface by supplying water to the rotary housing.

The washing and cooling means includes a pump for pumping water stored in the water reservoir;

Connected to the pump may include a water supply unit for supplying water to the surface of the rotary housing.

The washing and cooling means may further include an auxiliary pump for supplying water from the external water supply to the water reservoir.

Therefore, the energy growth value of the present invention can maintain the incidence angle of sunlight by rotating the transparent cover portion of the rotating housing along the sun even if the position of the sun changes with time, thereby the solar cell module or the solar heat collecting module The efficiency can be increased, and when the energy cannot be produced due to bad weather conditions such as sunset time or snow or storms, the transparent cover of the rotating housing is directed toward the lower surface, so that it can be polluted by surrounding pollutants or sand storms. Sand dust caused by the dust can be prevented from adhering to the surface of the transparent housing of the rotating housing. In particular, when the solar cell module is installed in the rotating housing to generate electricity, a light diffusion part is formed on the transparent cover to improve the photoelectric efficiency of the solar cell. Increase and wash and cool the rotating housing to prevent overheating and cleaning of solar cells It is possible to prevent the decrease in power generation efficiency of the solar cell module, so that even in poor areas such as deserts, solar power plants can be built and the main body is formed to float in the water. have.

1 is a perspective view of a conventional photovoltaic device;
Figure 2 is a perspective view of the energy generating device according to an embodiment of the present invention.
Figure 3 is a perspective view of a state in which the rotating housing of the energy generating device according to an embodiment of the present invention rotated.
Figure 4 is a side view showing the inside of the energy generating device according to an embodiment of the present invention.
Figure 5 is a cross-sectional view showing a protective film laminated on the transparent cover of the solar cell module of the energy generating device according to an embodiment of the present invention.
Figure 6 is a cross-sectional view showing a light diffusing means laminated to the transparent cover of the solar cell module of the energy generating device according to an embodiment of the present invention.
7 is a perspective view of a rotating housing of the energy generating device according to an embodiment of the present invention.
Figure 8 is a perspective view of the energy generating device continuously installed according to an embodiment of the present invention.
Figure 9 is a side view showing the inside of the energy generating device according to another embodiment of the present invention.
Figure 10 is a side view showing the inside of the energy generating device according to another embodiment of the present invention.
11 is a perspective view of an energy generating device according to another embodiment of the present invention.
12 is a perspective view of an energy generating device according to another embodiment of the present invention.
Figure 13 is a side view showing the interior of the water reservoir inside the body of the energy generating device according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, an embodiment of the energy generating device according to the present invention will be described in detail with reference to the accompanying drawings, in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals and duplicated therefor The description will be omitted.

Figure 2 is a perspective view of the energy generating device according to an embodiment of the present invention, Figure 3 is a perspective view of a rotating housing of the energy generating device according to an embodiment of the present invention. In addition, Figure 4 is a side view showing the interior of the energy generating device according to an embodiment of the present invention.

2 to 4, in the present embodiment, the energy generating device 100 includes a main body 110, a rotating housing 122, a solar cell module 112, a solar heat collecting module 111, and a driving means. 126, a drive unit 128, a rotation shaft 127, and a control means.

The main body 110 may be coupled to one or more assembly members, and may have a structure in which a predetermined space portion is formed therein and an upper portion thereof is opened, and a rotatable housing rotatably coupled to a central axis crossing the horizontal portion thereof ( 122) can be stopped and rotated,

An installation space 121 may be formed in the rotary housing 122 to install a module that generates sunlight as energy. In addition, the installation space 121 may include a hinge member 123 that seals or opens, and may include a transparent cover 113 through which sunlight passes.

At this time, by using the hinge member 123 coupled to one surface of the rotary housing 122 and the transparent cover portion 113, the solar cell module 112 or the solar cell in the installation space 121 inside the rotary housing 122. The collecting module 111 may be installed or collected separately.

Here, the hinge member 123 may be a hinged form that is folded or rotates around the central axis, and may use a metal material, a plastic material, or a composite material.

In addition, an electrode terminal (junction box) may be installed in the rotary housing 122 to be connected to the outside. A power line may be connected to the electrode terminal, and through this power line, electricity generated from the solar cell module 112 built in the rotary housing 122 may be transferred to an external electricity source or stored in a storage battery. A pipe part (not shown) may be installed inside the rotary housing 122 to connect with the outside. The pipe part may include an injection pipe (not shown) and a discharge pipe (not shown) connected to the solar heat collecting module 111. Can be equipped,

In addition, the rotating housing 122 tracks and rotates along the sun and the solar cell module 112 in the electricity or solar heat collecting module 111 according to the climatic environment such as the sunset time of the sun or snow or a storm. When the heat energy cannot be produced, the transparent cover 113 of the rotating housing 122 may be located on the lower surface of the main body 110 to be stationary fixed.

In addition, the main body 110 may be made of synthetic resin, metal, concrete, or the like, and may be made of various materials or composite materials capable of maintaining its shape. In addition, the body 110 may be made of a structure that is installed alone, it may be made of an auxiliary structure installed in another structure.

In addition, Figure 5 is a cross-sectional view showing a protective film laminated on the transparent cover of the solar cell module of the energy generating device according to an embodiment of the present invention, Figure 6 is an energy generation device according to an embodiment of the present invention FIG. 7 is a structural cross-sectional view illustrating optical means stacked on a transparent cover of a solar cell module, and FIG. 7 is a perspective view of a rotating housing of an energy generating device according to an exemplary embodiment of the present invention.

A protective film 125 for selectively blocking infrared rays or ultraviolet rays is laminated to the transparent cover portion 113 of the front side of the rotating housing 122 to prevent the life of the solar cell module 112 from being shortened by infrared rays or ultraviolet rays. The protective film 125 may be a LOW-E layer.

In addition, the transparent cover portion 113 further includes a light diffusion portion 140 to further increase the scattering, diffusion, and refraction of the solar light to increase the power generation efficiency of the solar cell.

The light diffusion part 140 may be formed to have a prism shape or a lens shape, and may be integrally formed on the bottom of the transparent cover 113, or may be separately manufactured and stacked on the bottom of the transparent cover 113. have.

On the other hand, in the present embodiment, the rotary housing 122 is rotatably supported on the upper portion of the main body 110, and the driving means 126 for rotating the rotary housing 122 so that the rotary housing 122 faces the sun. It may include.

To this end, the driving means 126 has a driving support member 137 that supports the rotary housing 122 to rotate relative to the main body 110.

For example, the driving support member 137 may be formed of a rotation shaft 127 installed on the central axis of the rotary housing 122.

In addition, the rotary shaft 127 receives the rotational force by the drive unit 128 to rotate the rotary housing 122.

The driving unit 128 may be installed in either the rotating housing 122 or the main body 110, and the rotary housing 122 may provide a driving force that rotates relative to the main body 110.

In this embodiment, the drive unit 128 may include a motor, and may include all other means for rotating the rotary housing 122, such as mechanical means.

On the other hand, a control means (not shown) for controlling the rotation of the drive unit 128 may be connected to the drive means 126.

In addition, the control means may be rotated by tracking the rotating housing 122 along the sun according to the position information of the sun by programming inputted by a specific software according to the installation location of the energy generating device 100 and at sunset time of the sun. The transparent cover 113 of the rotating housing 122 may be located on the lower surface of the main body 110 to control the stationary stop until the sunrise time.

For example, the drive unit 126 may be provided with a speed change unit (not shown) for adjusting the rotational speed between the rotation shaft 127 and the drive unit 128.

This transmission portion adjusts the motor rotational speed of the drive unit 128, for example, the motor rotational speed so that the rotation housing 122 can rotate at an angle of about 15 degrees per hour during the operation of the drive unit 128 Can be adjusted.

Preferably, the control means may control the operation of the drive unit 128 and the transmission portion to improve the power generation efficiency of the solar cell module 112.

Here, the control algorithm of the control means is not limited to this embodiment, and can be variously modified and embodied. For example, a global positioning system (GPS) or the like may be further added to the control means, and the control means receives the position and time information installed in the energy generating apparatus 100 so that the driving unit 128 and the transmission unit It is also possible to control the operation.

In addition, the control means communicates with the wired and wireless control mechanisms installed in the energy generating device 100 using wired and wireless communication equipment (Internet, mobile phones, etc.) and the drive unit 128 as well as other accessories. Can control the mechanism.

In addition, the control means may further comprise a timer for controlling the operating time of the drive unit 128. [ The control means stops the operation of the drive unit 128 with the transparent cover portion 113 of the rotating housing 122 positioned on the lower surface of the main body 110 after the sunset time using the time provided from the timer. The drive unit 128 may be controlled to operate only at the time.

In addition, the control means may control the operating time of the drive unit 128 to rotate the rotary housing 122.

For example, the rotation speed of the earth rotates about 15 degrees per hour, and the control means can control the driving unit 128 to operate only during the time that the rotating housing 122 rotates 15 degrees once every hour. .

8 is a perspective view of the energy generating device is installed continuously according to an embodiment of the present invention. In the present embodiment, the energy generating device 100 may be installed alone, or may be installed in plural numbers and connected with other energy generating devices 100 adjacent to each other as shown in FIG. 8. To this end, the energy generating device 100 may be connected to another adjacent energy generating device 100 through a fixed hardware member.

On the other hand, when the energy generating device 100 is installed continuously, it may be installed in consideration of the size and distance not to block the sunlight of the rotating housing 122 installed in the energy generating device 100 of the rear row. To this end, the upper central portion of the side of the main body 110 may be formed in a higher form in the upward direction, that is, in the form of a pentagon in which the upper portion is inclined forward and rearward with respect to the center portion.

In addition, the energy generating device 100 may be formed in a quadrangular shape of the flat cross-section of the main body 110. As such, when the flat cross section of the main body 110 is formed in a quadrangle, the distance between the continuous energy generating apparatus 100 can be narrowed, and continuous construction or installation is easy.

In this embodiment, the rotating housing 122 has been described for the embodiment installed flat on the upper end of the main body 110, the form in which the rotating housing 122 is installed is not limited by this embodiment.

9 is a side view showing the inside of the energy generating device according to another embodiment of the present invention.

As shown in FIG. 9, the rotating housing 222 may be installed to be inclined to face a direction in which the amount of sunshine of the sun increases.

For example, in the present embodiment, the rotating housing 222 may be installed to be inclined at an angle of 20 to 45 degrees to the south, and the rotating housing 222 may be fixedly installed in a direction that receives the most amount of sunshine. Here, the direction in which the amount of sunshine is increased may be set in consideration of the relationship between the inclination of the place and the terrain, such as the hardness, location, etc., where the main body 210 of the present embodiment is installed.

On the other hand, the main body 210 of the present embodiment may further include a height adjusting unit 230 for adjusting the inclined height of the rotary housing 222.

One end of the height adjusting unit 230 is coupled to the main body 210, and the other end may be provided with a driving means 226 for rotating the rotary housing 222.

The drive means 226 includes a drive support member for supporting the rotary housing 222 to rotate relative to the main body 210, for example, a rotation shaft 227, which is driven by the drive unit 228. It can be installed rotatably.

Here, the height adjustment unit 230 may be made of a support that can be adjusted in length, or may be made of a foldable link member, the height of the rotating housing 222 according to the position of the main body 210 is adjusted by adjusting their height You can adjust the angle.

10 is a side view showing the inside of the energy generating device according to another embodiment of the present invention. As shown in FIG. 10, the rotating housing 322 may be installed to be inclined so as to face a direction in which the amount of sunshine of the sun increases.

The rotating housing 322 is rotatably supported on the upper portion of the main body 310, it may include a drive means 326 for rotating the rotating housing 322 to face the sun.

The drive means 326 includes a drive support member for supporting the rotary housing 322 to rotate relative to the main body 310, for example, a rotation shaft 327, which is driven by the drive unit 328. It can be installed rotatably.

The upper portion of the main body 310 may be inclined at an angle corresponding to the rotation housing 322.

That is, in the present embodiment, the rotating housing 300 may be formed in a quadrangle in which the rear portion of the main body 310 is formed higher in the upward direction.

In this case, the rotating housing 322 may be deformed or reinforce the support structure of the upper end of the main body 310 to rotate without being interfered by the main body 310 in an inclined state.

In addition, as the upper portion of the main body 310 is formed at an angle corresponding to the angle of the rotating housing 322, it is possible to stably support the rotating housing 322. In the present embodiment, the energy generating apparatuses 100, 200, and 300 have been described as having a flat cross section of the main bodies 110, 210, and 310 in a rectangular shape, but are not limited thereto. Polygons such as circles, triangles, and the like are not limited thereto. It may be modified in various shapes as shown.

Although the energy generating apparatuses 100, 200, 300, and 400 of the present embodiment have one rotary housings 122, 222, 322, and 422 installed above the main bodies 110, 210, 310, and 410, they are illustrated in FIG. 11. Like the energy generating device 500 shown in the figure, the rotating housing 522 may be formed in plural, and may be rotatably installed on the upper portion of the main body 510.

Referring to FIG. 11, which is a perspective view of an energy generating device according to another embodiment of the present invention, the rotary housings 522 are spaced apart from each other by a predetermined distance so as to minimize an area covering the other rotary housings 522 in an inclined rotation state. It may be installed, it is preferable to set the size of the rotary housing 522 in consideration of this.

12 is a perspective view of an energy generating device according to another embodiment of the present invention.

12, the energy generating device 600 according to the present embodiment is the energy generating device 100, 200 according to the previous embodiment in that the main body 610 is formed to float in the water, such as sea, river, lake , 300, 400, and 500). Here, FIG. 12 shows a rotating housing 622, a drive means 626, a drive unit 628, the description of which replaces the description of the corresponding components of the previous embodiment.

According to the present embodiment, the main body 610 may include a buoyancy means 612 disposed outside the main body 610.

The buoyancy means 612 has a hollow portion (not shown) formed to provide buoyancy to the body 610. The buoyancy means 612 may be formed in a hollow pillar shape, but is not limited thereto and may be formed in various shapes including a hollow part.

The buoyancy means 612 is composed of a plurality, each buoyancy means 612 may be coupled to the outer portion of the main body 610. 12, the buoyancy means 612 is illustrated as being disposed on the side of the main body 610, but is not limited thereto. The buoyancy means 612 may also be disposed at the bottom or the inside of the main body 610.

Alternatively, although not shown, the main body 610 may be manufactured in the form of a tube that can expand by injecting air into the inner space.

In addition, various forms of the main body 610 for floating in the water can be proposed.

As described above, according to the present exemplary embodiment, since the main body 610 floats in the water phase, the energy generating device 600 may be positioned and used in the water phase without restriction of the place.

Figure 13 is a side view showing the inside of the water reservoir inside the body of the energy generating device according to an embodiment of the present invention,

The main body 110 of the present embodiment may further include a separate water reservoir 120 for storing water, wherein the water reservoir 120 is located inside the main body 110 and installs an injection portion and an outlet portion. The material may be a synthetic resin or a metal material, such as concrete or a composite material can be used.

In addition, the energy generating device 100 supplies water to the rotary housing 122, washing and cooling means for cleaning and cooling the surface of the transparent cover 113 of the rotary housing 122 or the lower surface of the rotary housing 122 124 may be further included.

The washing and cooling means 124 is installed above the water reservoir 120 may spray water upward toward the rotating housing 122, and preferably a separate water reservoir 120 inside the body 110. The water stored in the water may be sprayed for washing and cooling toward the rotating housing 122. To this end, the washing and cooling means 124 is connected to the pump 130 for pumping up the water reservoir 120 inside the body 110, the pump 130 and the water to the upper portion of the rotary housing 122 It may include a water supply unit 133 to supply.

In this case, the pump 130 may be installed with the pipe 134 connected to the suction unit extending into the main body 110 and connected to the water supply unit 133 by the pipe 134 connected to the discharge port.

Here, the water supply unit 133 may be formed in the form of a spray or a water injection line, for example, the water supply unit 133 is sprayed with water to the lower surface of the rotary housing 122 built-in solar cell module Induction of the cooling effect, or when the transparent housing 113 is located on the lower surface of the main body 110, the rotating housing 122, at the sunset time, spray water toward the transparent cover 113 to wash. It can be.

In addition, at the end of the pipe 134 extending into the main body 110, a filter unit 129 (not shown) for blocking foreign matters contained in the water stored in the storage space from flowing into the pump 130. Can be installed.

The washing and cooling means 124, when the water is scarce, such as when the water is dry, by storing water or supplying water separately or by drawing water from a water source such as groundwater using electricity produced in the rotary housing 122 The rotary housing 122 may be washed or cooled by supplying the reservoir 120 and using the water stored in the reservoir 120.

To this end, the washing and cooling means 124 may further include an auxiliary pump for raising water from a water supply such as groundwater.

In the present embodiment, the washing and cooling means 124 is described as the auxiliary pump to supply the water sucked from the water source to the water reservoir 120, but is not limited to this to store rain water or the auxiliary pump from the water source It is also possible to supply the sucked water directly to the water supply unit 133 to wash and cool the rotating housing 122.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. Modify and / or alter such information

100: energy generating device 110: main body 111: solar heat collection module
112 solar cell module 113 transparent cover 120 water reservoir
121: installation space portion 122: rotary housing 123: hinge member
124: washing and cooling means 125: protective film 126: driving means
127: rotating shaft 128: drive unit 129: filter 130: pump
131: assembly member 133: water supply 134: pipe 137: drive support member
140: light diffusion portion 612: buoyancy means

Claims (24)

One or more assembly members are coupled to the main body having a space therein,
A rotating housing installed at an upper portion of the main body,
A driving means for stopping or rotating the rotary housing;
Energy generating device comprising a control means for controlling the operation of the drive means The method according to claim 1,
The rotating housing has an installation space that can be installed inside the module device for generating sunlight into energy;
The energy generating device is connected to a hinge member coupled to one surface of the rotating housing to open and close the installation space, and includes a transparent cover part through which sunlight is transmitted. The method according to claim 2,
Energy generating device, characterized in that the solar cell module (PV module) for generating electricity by receiving the sun in the installation space The method according to claim 2,
Energy generating device, characterized in that the solar heat collection module for generating solar heat by receiving the sun in the installation space portion The method according to claim 3,
The transparent cover portion energy generating device further comprises a protective film for blocking infrared rays or ultraviolet rays. The method of claim 3,
The transparent cover unit is an energy generating device further comprises a light diffusion unit for condensing and diffusing, scattering, refracting the sunlight to the solar cell module. The method according to claim 1,
The driving means includes:
A drive support member for rotatably supporting the rotating housing with respect to the main body;
An energy generating device comprising a drive unit for providing a rotational force to the rotating housing. The method according to claim 1,
The control means tracks and rotates the rotary housing along the sun according to the position information of the sun according to the location information of the sun by programming inputted by specific software according to the installation place of the energy generating device, and the front of the rotary housing at sunset time of the sun. The energy generating device, characterized in that the stop is fixed to the position sunrise time on the lower surface of the body. The method according to claim 1,
The control means communicates with wired and wireless control mechanisms installed in the energy generating device using wired and wireless communication equipment (internet, mobile phone, etc.), and can control the driving unit as well as the accessory device. Energy generating device. The method according to claim 1,
The control means energy generation device, characterized in that it comprises a timer for controlling the operating time of the drive unit. The method according to any one of claims 1 to 7,
The driving means is provided between the drive support member and the drive unit further comprises an energy generating unit for adjusting the rotational speed The method according to claim 1,
The rotating housing is installed inclined so as to face the direction of increasing sun light The method of claim 12,
The main body further comprises an energy generating unit for adjusting the height of the inclined housing of the rotating housing The method of claim 12,
An upper portion of the main body is characterized in that the energy generating device characterized in that the inclined at an angle corresponding to the rotating housing The method according to claim 1,
The energy generating device is characterized in that the energy generating device is composed of a plurality of connected to the adjacent energy generating device. The method according to claim 1,
The rotating housing is composed of a plurality of energy generating device, characterized in that rotatably installed on the upper portion of the main body, respectively. The method according to any one of claims 1 to 3 to 4 to 8 to 9,
The energy generating device, characterized in that the main body is configured to float in the water phase. 18. The method of claim 17,
The main body, the energy generating device characterized in that it comprises a buoyancy means disposed on the outer or lower surface. 18. The method of claim 17,
The main body, the energy generating device comprising a buoyancy means in its interior space. The method according to any one of claims 1 to 3 to 4 to 8 to 9 to 17,
The body further comprises an additional water reservoir for storing water therein. The method of claim 20,
The energy generating device further comprises a filter unit for filtering foreign substances introduced into the upper part of the water reservoir. The method of claim 20,
The water reservoir further comprises washing and cooling means for supplying water to the rotating housing to wash and cool the surface. The method of claim 20,
The washing and cooling means includes a pump for pumping water stored in the water reservoir;
And a water supply unit connected to the pump to supply water to the surface of the rotary housing. The method of claim 20,
The washing and cooling means further comprises an auxiliary pump for pulling up water from an external water supply to the water reservoir.

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