KR101562814B1 - Centralized solar power plant using water floating structure for photovoltaic power generation on water - Google Patents

Abstract

The present invention relates to a photovoltaic power plant installed to be above the surface of the water. According to the present invention, the photovoltaic power plant uses a photovoltaic power generation floating body to generate power, stores the generated power in a battery, and supplies the electricity needed for a water circulation apparatus or water purifying apparatus installed near the plant and a structure above the surface of the water. The present invention can operate various apparatus and facilities installed above the surface of the water at a low cost without arranging a separate AC-DC conversion means by supplying the DC power stored in the power as the operating power. The present invention has a reflection plate attached on the floating body and forms a curve thereon to increase the amount of the generated power by the reflected light. A UV shielding member is installed on the upper surface of the floating body to prevent the photodegradation of the floating body due to UV rays. The centralized photovoltaic power plant using the photovoltaic power generation floating body above the surface of the water is configured to prevent the entry of birds, animals, and plants to eliminate the need for cleaning operation.

Description

Technical Field [0001] The present invention relates to a centralized solar power plant using a floating solar power generation plant,

The present invention relates to an aquatic solar power plant installed in a watercourse, and more particularly, to a solar watercraft installed in a watercraft, in which power is generated by using a float for photovoltaic power generation installed in a watercourse, By supplying the electricity necessary for the circulation device, the water quality purification device and the water structure, it is possible to supply the movable power to the various devices and facilities installed in the water supply at any time without needing to use the external power source for the separate AC- And more particularly to a centralized solar power plant using a float for solar photovoltaic power generation.

Further, according to the present invention, a reflection plate capable of reflecting sunlight is provided on the upper surface of a floating body for water solar power generation installed in an aquarium, thereby preventing intrusion of birds and wild animals, And more particularly, to a centralized solar power plant using a float for a solar photovoltaic power generation that is configured to increase the amount of light condensed in the optical module to increase the power generation amount of the solar module.

In addition, in order to prevent photocatalytic degradation of a floating solar cell for water power generation by ultraviolet rays, a solar cell module on a top surface of a float and a part where a reflector is not installed are formed in the same shape as a corresponding part by using a synthetic resin or a reflector A centralized solar power plant using a float for an aquarium photovoltaic power generation apparatus configured to form an ultraviolet shielding member and to be attached with a double-sided tape or to be connected together when a fluid is connected, .

In recent years, concern about exhaustion of fossil fuels such as petroleum and coal resources and environmental pollution has become a social problem, and there is a growing demand for environmentally friendly clean energy in place of existing energy.

As one of the clean energies described above, photovoltaic power generation using solar light has been widely used in various fields. For example, in the case of a water purification apparatus or a water structure installed on a watercourse, It is not easy to supply the movable power by connecting the external power source as in the case of land, so that the solar power generation apparatus is installed in the water column to supply the movable power.

According to Korean Patent No. 10-1492838, for example, in the prior art example related to the above-described water photovoltaic power generation apparatus and method as described above, a solar photovoltaic module is installed on the upper part, And a fender for maintaining a gap between the support frame and preventing damage to the solar cell module or the support frame due to an impact, There has been proposed a technical content of a photovoltaic power generation system which can stand independently on the ground to prevent warping of the frame.

According to another example of the prior art related to the above-described photovoltaic power generation apparatus and method as described above, according to Korean Patent Registration No. 10-1488931, for example, In addition, according to Korean Patent Registration No. 10-1448212, the heat generated in the rear portion of the solar panel is rapidly heated in a high temperature environment such as summer, So that the power generation efficiency can be improved by transmitting the water to the surface of the water.

Further, according to another example of the prior art related to the above-described water PV system and method as described above, for example, according to Korean Patent Registration No. 10-1028944, a solar cell module A plurality of length adjusting modules disposed on the land to support the steel wires respectively and controlling lengths of the steel wires according to the water level change, And a rotating module for rotating the solar cell module to follow the light so as to sufficiently cope with an external force generated by wind or water flow and to improve the energy conversion efficiency The contents have been presented.

As described above, various technical contents related to a water photovoltaic generation apparatus and method for supplying electric power to various water purification apparatuses and a water structure installed in a watercraft have been proposed. However, The photovoltaic devices and methods have the following problems.

That is, in general, even when the solar power generation module has a self-generating function, various water quality purification devices and aquatic structures installed in the aquaplane are connected to an underwater cable In addition, when the external power source is used, conversion means such as an inverter for converting AC electricity into DC electricity is additionally required. Therefore, in order to install such an underwater cable and an inverter, The period and the cost are increased.

However, the conventional solar photovoltaic power generation plants as described above only present the technical content concerning the installation and fixing method of the photovoltaic power generation module and the increase of the power generation through tracking of the sunlight. As described above, There has been no description of techniques for eliminating or simplifying the configuration of cables and inverters to reduce the installation cost.

In addition, the conventional aquatic photovoltaic power generation plant has an effect of making artificial islands in the aquatic environment, so that it serves as a shelter or a resting place for animals living in various algae and aquatic waters. For example, In some cases, feces are accumulated or feces are excreted by animals on the float. If foreign substances such as feces are accumulated, the power generation amount of the solar module is adversely affected. Therefore, in the conventional solar photovoltaic power plants, It is necessary to perform frequent cleaning so as not to accumulate, thereby increasing the labor cost and the maintenance cost.

In addition, in order to prevent the pollution problem caused by algae or animals, the conventional aquatic photovoltaic power generation plants are constructed to separately install an intrusion prevention facility such as an obstacle or a fence to prevent intrusion of nearby animals In addition to the inconvenience that the work for installation of the power plant increases, the construction cost also increases.

Therefore, as described above, in addition to the inconvenience of installing an inverter for converting an alternating current into a direct current by supplying an alternating current by using an underwater cable in the land, pollution is caused by birds or animals, In order to solve the problem of prior art aquatic photovoltaic power plants having a problem in that it is required to generate electricity by using solar light to store electric power in a battery, It is possible to operate various devices and facilities installed in the water phase at low cost without supplying separate AC-DC converting means by supplying the movable electric power with the DC power stored in the battery, By attaching a reflector to the top surface and forming a curvature, It is desirable to provide a solar photovoltaic power generation plant with a new structure which is constructed not only to allow the user to visually recognize the plant, but also to prevent the intrusion of birds, plants and animals and to eliminate frequent cleaning work. However, It is a fact that it does not become.

[Prior Art Literature]

1. Korean Patent Registration No. 10-1492838 (Feb.

2. Korean Patent Registration No. 10-1488931 (Feb.

3. Korean Patent Registration No. 10-1448212 (Apr. 30, 2014)

4. Korean Patent Registration No. 10-1028944 (April 05, 2011)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a solar power generation system and a solar power generation system in which power generation is performed using a solar power generation float mounted on an aquarium, It is constituted to supply necessary electric power to various water quality purification devices or aquariums installed in the water phase through the switchboard, and thereby DC power stored in the battery is directly supplied to each device or structure, thereby converting AC into DC when using external power The present invention provides a centralized solar photovoltaic power generation system using a float for photovoltaic power generation, which is configured to solve the hassle of the prior art in which a separate means or device for installing the solar cell is required.

Another object of the present invention is to provide a reflector capable of reflecting sunlight on the upper surface of a floating body for aquarium photovoltaic power generation installed in an aquarium to form a bend in the reflector to increase the amount of light focused on the solar module , It is possible to increase the power generation amount of each solar module and prevent the intrusion of algae and wild animals, thereby eliminating the need for installation of additional facilities for chasing birds, And to provide a centralized solar power plant using a float for solar photovoltaic power generation, which eliminates the need for frequent cleaning and saves labor costs and reduces the risk of safety accidents.

It is another object of the present invention to provide an ultraviolet shielding member by using a synthetic resin or a reflector in accordance with the shape of a solar module on the top surface of a floating body for water solar power generation installed in an aquarium, The present invention provides a centralized solar power plant using a float for an aquarium photovoltaic power generation system configured to be attached together with a tape or to be coupled together when a fluid is connected, thereby preventing ultraviolet rays from directly contacting the upper surface of the float to prevent photolysis of the float I would like to.

It is still another object of the present invention to provide an auxiliary buoyancy having a constant buoyancy between a float solar photovoltaic power generation means and a fixing means when a fixing means for fixing a solar photovoltaic power plant installed on a water surface is installed on the bottom surface of the water, The tension of the rope connecting the float for photovoltaic power generation and the fixing means can be maintained at a constant tension by the rising or falling of the auxiliary buoyant body according to the change of the water level, The present invention provides a centralized solar power plant using a float for solar photovoltaic power generation that is configured to prevent rocking and loss of a solar power plant and fix the solar power plant at an installation position.

In order to achieve the above-mentioned object, according to the present invention, in addition to the inconvenience of installing an inverter for converting alternating current into direct current when supplying an alternating current by using an underwater cable in land, A centralized solar power plant using a float for solar photovoltaic power generation, which is configured to solve the problems of prior art solar photovoltaic power plants that have been in need of frequent cleaning and maintenance operations due to contamination or damage, A plurality of solar module immobilization fluids installed in the water phase; A plurality of photovoltaic modules mounted on a surface of the water using the respective floats for fixing the photovoltaic modules; A power storage unit for storing power generated by each of the solar modules of the solar power generation unit; And a power supply unit including a power storage unit for supplying electric power stored in the power storage unit to an external water purification apparatus or a water structure. The centralized solar power plant Is provided.

Here, the solar module fixing fluid may include solar modules on the top surface of each solar module fixing fluid, so as to reflect sunlight incident on the solar module fixing fluid, And a reflector provided at a portion where the solar cell module is installed, thereby increasing the amount of light to be condensed on the solar cell module.

Also, the reflector may be attached to the top surface of the solar module fixing fluid on the top surface of each of the solar module fixing anodes for mounting the solar module on a double-sided tape or a bond, Or is integrally formed when the solar cell module fixing fluid is manufactured.

In addition, the solar module fixing fluid may be formed in a shape of a portion of the upper surface of the solar cell module fixing fluid, not having the solar cell module and the reflector, using the synthetic resin, The upper surface of the upper surface of the solar cell module fixing sub-fluid is directly exposed to ultraviolet rays to prevent the photodecomposition of the upper surface of the solar cell module fixing fluid, So that the durability life can be prolonged.

Further, the solar cell module fixing float is formed so as to be able to mount the solar cell module on the upper surface in a rectangular shape using a floating material including polyethylene, and each of the solar cell module fixing sub- The solar cell module further comprises a connection ring formed on the outer surface of the solar cell module so as to connect each of the solar cell module fixing fluids to each other, so that a large structure can be easily formed.

The photovoltaic power generation unit may include a plurality of photovoltaic module fixing sub-fluids corresponding to one of the plurality of photovoltaic module fixing sub-fluids, or two or more of the plurality of photovoltaic module fixing sub- Are arranged and installed.

In addition, the power storage unit may include: at least one battery for storing electric energy generated by each of the solar modules; And a battery protection case formed to be capable of individually or integrally accommodating each battery in order to prevent water from being splashed on the battery to cause an electric system failure or to be contaminated or damaged by surrounding algae or animals .

Further, the power supply unit may include: a charge controller for storing electric energy generated by each of the solar modules in the battery of the power storage unit; An electric power distribution panel for supplying electric power to the water structure or the water quality purification device installed in the vicinity of the solar power generation plant using electric energy stored in each battery of the power storage unit; And a remote controller for selectively turning on and off the power of the water structure or the water purification device at the land or remote location, respectively.

The solar power generation plant further includes a plurality of floats for fences formed by covering a cylindrical float with a nonwoven fabric made of synthetic fiber and covering the outer surface with a net made of synthetic fibers, The floats are connected to each other so as to surround the outer periphery of the solar power generation station so as to prevent rocking due to wind or water and splashing of water and to prevent intrusion of animals from the outside .

In addition, the solar power plant may further include fixing means formed of a heavy material including an anchor or concrete for fixing the solar power plant, and the fixing means may be attached to the floor surface through a rope as needed So that the solar power generation plant can be prevented from flowing and losing and can be fixed to an installation position.

Further, the solar power plant further comprises an auxiliary buoyant body provided between the solar module fixing fluid and the fixing means at a predetermined constant buoyancy at the time of installation of the fixing means, And the tension of the rope connecting the float for securing the photovoltaic module to the fixing means can be maintained at a constant tension by the rising or falling of the auxiliary buoyant body according to the lifting and lowering of the auxiliary buoyant body, And can be fixed to an installation position.

The solar power plant may further include an underwater cable for supplying electric power to each of the aquatic structures and the water quality purification apparatus; And a step of fixing each of the solar power generation plant, the aquamarine structure, and the water purification device together with the underwater cable to the floor surface, in order to prevent the underwater cable from being pushed by water or short- Wherein the underwater cable is installed along the bottom surface to connect the underwater cable to one side of each of the aquatic structures or the water quality purification apparatus and to the opposite side of the surface to which the underwater cable is fixed And is fixed to the bottom surface by fixing means constituted by using a heavy material including an anchor or concrete for fixing the solar power plant by connecting the ropes, It is configured to be able to be stably fixed even if only one rope is installed It shall be.

As described above, according to the present invention, power generation is carried out by using a float for photovoltaic power generation installed in an aquarium, the generated electric power is stored in a battery, and various water quality purification devices and water structures The DC power is directly supplied to each device or structure, thereby supplying alternating current to the DC power source when the external power source is used, It is possible to solve the hassle of the prior art in which a separate means or device for switching to the device is required.

In addition, according to the present invention, there is provided a centralized solar power plant using a float for an aquarium photovoltaic power generation, which is configured to provide a reflector capable of reflecting solar light on the top surface of a floating body for aqua- The amount of light condensed on the solar module is increased by forming a curvature on the reflector to increase the amount of power generated by each solar module and to prevent the intrusion of algae or wild animals and to provide additional facilities In addition to eliminating the need for installation, maintenance and construction costs can be reduced. In addition, there is no need to clean from time to time, saving labor costs and reducing the risk of safety accidents.

According to the present invention, an ultraviolet shielding member is formed by using a synthetic resin or a reflector in accordance with the shape of a solar module on a top surface of a solar photovoltaic power generator installed in an aquarium and a portion where a reflector is not installed, The present invention provides a centralized solar power plant using a float for solar photovoltaic power generation that is configured to be connected to an upper surface of a float, or to be coupled together when a float is connected.

Further, according to the present invention, it is possible to provide an auxiliary buoyant body having a constant buoyancy between the float for solar photovoltaic power generation and the fixing means when the fixing means for fixing the solar power plant installed on the waterway is installed on the bottom surface of the water A centralized solar photovoltaic power generation plant using a floating photovoltaic power generation float is constructed and arranged so that the auxiliary float body rises or falls according to a change in the water level, So that the tension can be maintained constantly at all times, thereby preventing the solar power plant installed on the waterfront from being rocked and lost and being fixed at the installation position.

FIG. 1 is a block diagram schematically showing the overall configuration of a centralized solar power plant using a float for photovoltaic power generation according to an embodiment of the present invention.
2 is a view schematically showing the overall configuration of a centralized solar power plant using a float for aquatic solar power generation according to an embodiment of the present invention.
3 is a view schematically showing a configuration for supplying electric power to a surrounding water quality purification apparatus or a water structure using a centralized solar power plant using a float for photovoltaic power generation according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a centralized solar power plant using a float for photovoltaic power generation according to the present invention will be described with reference to the accompanying drawings.

Hereinafter, it is to be noted that the following description is only an embodiment for carrying out the present invention, and the present invention is not limited to the contents of the embodiments described below.

In the following description of the embodiments of the present invention, parts that are the same as or similar to those of the prior art, or which can be easily understood and practiced by a person skilled in the art, It is important to bear in mind that we omit.

That is, according to the present invention, as described later, power generation is carried out by using a float for photovoltaic power generation installed in an aquarium, generated power is stored in a battery, and various water quality purification devices, It is necessary to provide separate means or devices for supplying alternating current to direct current when an external power source is used by supplying DC power stored in the battery directly to each device or structure, The present invention relates to a centralized photovoltaic power plant using a float for photovoltaic power generation,

Further, according to the present invention, as described later, a reflecting plate capable of reflecting sunlight is provided on the upper surface of a floating body for water solar power generation installed in an aquarium, thereby forming a bend in the reflecting plate, It is possible to increase the power generation amount of each solar module and to prevent the invasion of algae and wild animals and to install the additional facilities for chasing the algae, In addition, the present invention relates to a centralized photovoltaic power generation system using a float for solar photovoltaic power generation, which eliminates the need for frequent cleaning, thereby saving labor costs and reducing the risk of safety accidents.

In addition, as described later, according to the present invention, ultraviolet shielding members are formed by using a synthetic resin or a reflector in accordance with the shape of a solar module on the top surface of a floating body for water solar power generation installed on a watercourse, A centralized solar power plant using a float for solar photovoltaic power generation that is configured to be attached with a double-sided tape or fastened together when a fluid is connected, thereby preventing ultraviolet rays from directly contacting the upper surface of the float to prevent photolysis of the float. .

Further, as described later, according to the present invention, when a fixing means for fixing a solar power plant installed on an aquarium is installed on the bottom surface of an aquarium, an auxiliary The auxiliary buoyant body is raised or lowered in accordance with the change of the water level so that the tension of the rope connecting the float for photovoltaic power generation and the fixing means can be maintained at a constant tension at all times, To a centralized solar power plant using a float for solar photovoltaic power generation, which is configured to prevent rocking and loss of the installed solar power plant and fix it to the installation position.

Next, with reference to the drawings, the details of the centralized solar power plant using the float for photovoltaic power generation according to the present invention will be described.

1 is a block diagram schematically showing the overall configuration of a centralized solar power plant using a float for photovoltaic power generation according to an embodiment of the present invention. Referring to FIG.

As shown in FIG. 1, the centralized solar power plant 10 using the float for solar photovoltaic power generation according to the embodiment of the present invention roughly includes a plurality of solar module fixing floats And a plurality of photovoltaic modules mounted on the surface of the water by using the float 11 for fixing the respective solar modules. A power storage unit 13 including at least one battery for storing the power generated by the solar module of the solar cell module 10 and an electric distribution board for supplying the electric power stored in the power storage unit 13 to an external water purification apparatus or an aquarium structure And a power supply unit 14 configured to generate a power supply voltage.

Here, the float 11 is formed in a rectangular shape, for example, so that the solar module can be mounted on the upper surface. At this time, The solar module may be installed so as to correspond thereto or may be installed such that one solar module is positioned between the two float 11, .

In addition, a reflector capable of reflecting solar light is attached to a portion where the solar module is not provided on the upper surface of each float 11, thereby increasing the amount of light condensed on the solar module, . ≪ / RTI >

More specifically, the reflector may be formed in various shapes as required and attached to the upper surface of the float 11 by means of a double-sided tape or a bond, And may be formed by forming a curvature so that the reflected light can reach in various directions.

Therefore, as described above, reflectors are formed in various forms such as circular, square, triangular, etc. on the upper surface of each float 11 so as to prevent access of algae and to prevent entrance of birds, And it is possible to increase the amount of generated electricity by forming the bending and allowing the reflected light to reach in various directions.

As described above, the reflector may be formed on the upper surface of each float 11 in accordance with the shape of the portion where the optical module is not installed, or the reflector may be formed on the upper surface of each float 11 The upper surface of the float 11 is directly exposed to the ultraviolet rays to prevent the photolysis from occurring, so that the float (11) 11 can be further extended.

Furthermore, the above-described solar power generation plant 10 is provided with, for example, a non-woven fabric of a synthetic fiber material placed on a cylindrical float, a float for fencing formed by covering a net made of synthetic fibers on the outer surface, So as to prevent water from bouncing in the wind, and to prevent rocking or loss of the solar power plant 10 due to wind or water.

In addition, the power storage unit 13 is provided with at least one battery for storing electric energy generated by each solar module, and at least one battery for storing electric energy generated by each solar module, And a battery protection case configured to be able to individually or integrally accommodate the battery of the battery.

In addition, the electric power supply unit 14 uses electric energy stored in the battery to turn on and off each device at a remote location such as an electric power distribution board for supplying the movable power to the surrounding water structure or the water purification apparatus, And a remote control controller for allowing the remote controller to be provided.

Therefore, according to the centralized solar power plant 10 using the float for solar photovoltaic power generation according to the embodiment of the present invention constructed as described above, A reflector is attached to a portion where the module is not installed to form a reflector. Then, the solar module is fixed to a plurality of floats having reflectors on the top surface, and then each float is fastened with bolts etc. The power generated by each solar module is stored in the battery and the electric power can be connected or disconnected to the water purification apparatus or the water structure installed around the power distribution panel and the underwater cable by using the remote controller, The water purification apparatus and the water structure can be easily operated or stopped at the location or the land.

As described later, each of the solar power generation plants 10, the water quality purification apparatus, and the aquamarine structure is provided with, for example, a rope formed of polyester together with an underwater cable, At this time, only one rope is provided on the opposite side of the underwater cable, so that it can be fixed so as to flexibly replace the water level fluctuation.

2 is a schematic view showing an example of an actual construction of a centralized solar power plant 10 using a float for aquatic solar power generation according to an embodiment of the present invention.

That is, as shown in FIG. 2, the centralized solar power plant 20 using the float for photovoltaic power generation according to the embodiment of the present invention includes a plurality of solar module fixing floats 21 A plurality of solar modules 22 installed on the solar module fixing float 21 and at least one battery 23 for storing the electric energy generated by each solar module 22, A battery protection case 24 for storing the respective batteries 23, an electric distribution board 25 having a remote controller incorporated therein for supplying electric power stored in the battery to a surrounding water structure or water quality purification device, A reflection plate 26 and an ultraviolet shielding member 27 provided on the upper surface of each solar module fixing fluid 21 are installed on the outer side of the solar power generation plant 20 to prevent the influence of water or wind (28) < / RTI > And a fixing means 29 including an anchor for fixing the solar power generating station 20 to the floor surface.

Here, the above-described solar module fixing float 21 may be formed of a material floating in water, such as polyethylene, and may be formed integrally with the reflector at the time of fabrication as described above, A reflector 26 formed to be freely selectable in a specific shape is fixed on the upper surface using a double-faced tape, a bond, a piece, etc. At this time, the reflector 26 is bent The amount of light condensed on the solar module 22 can be increased to increase the amount and efficiency of generation.

In addition, the centralized solar power plant 20 using the float for solar photovoltaic power generation according to the embodiment of the present invention is provided with the reflector 26 on the upper surface of the solar module fixing float 21 as described above The ultraviolet shielding member 27 is provided in the upper part of the upper surface of the solar cell module fixing float 21 so as to block the ultraviolet rays so as to prevent photolysis of the subsidiary fluid, . ≪ / RTI >

In addition, though not shown, a connection ring may be formed on the outer surface of the solar module fixing float 21 so that each float can be connected thereto, so that a large structure can be easily formed.

The solar module 22 may be installed using existing commercial products and may be installed so that one solar module 22 corresponds to one float or two or more solar modules And may be installed in a variety of ways as required depending on the size and shape of the solar module 22 and the float 21 for fixing the solar module, .

The battery 23 is connected to a plurality of batteries in order to secure a sufficient capacity for at least one or more, preferably, for a long time, so that the electric energy produced by each solar module 22 So that it is possible to constantly use electric power in a plurality of water purification apparatuses and aquaria structures installed in the periphery.

As shown in Fig. 2, the battery protection case 24 is configured to receive the battery 23, thereby causing water to splash on the battery 23, causing an abnormality in the electric system, The battery protection case 24 may be constructed so that a protective case is formed and stored for each battery, or a single case Or may be configured to house a plurality of batteries in a case at a time, or the like, and may be variously configured as needed.

The power distribution panel 25 includes a charging controller for storing electric energy generated by each of the solar modules 22 in the battery 23 and a power source for powering various devices installed in the water structure It is possible to easily and selectively operate the respective devices even at remote locations such as land.

Further, the float 28 for fence may be formed, for example, by arranging a plurality of floats formed by covering a cylindrical float with a synthetic fiber nonwoven fabric and covering the outer surface with a net made of synthetic fiber, 20 to surround the solar power generation station 20 so as to prevent flow and water from splashing due to wind or water and to prevent intrusion of animals from the outside .

In addition, the fixing means 29 described above can prevent the flow and loss of the solar power station 20, for example, by fixing a heavy object such as an anchor or a concrete structure to the floor surface through a rope as necessary, And can be fixed to the mounting position.

At this time, as shown in FIG. 2, an auxiliary buoyancy body 36 having a constant buoyancy is provided between the solar module fixing float 21 and the fixing means 29, The tension of the rope connecting the float 21 for fixing the solar module and the fixing means 29 is maintained at a constant tension by the lifting or lowering of the solar cell power generator 20, And can be fixed to the mounting position.

The auxiliary buoyant body 36 preferably has a buoyancy smaller than the buoyancy of the solar power generation station 20 and can sink at a weight of at least 400 kg, for example, And a buoyant body having buoyancy.

Accordingly, the centralized solar power plant 20 using the float for solar photovoltaic power generation according to the embodiment of the present invention can be constructed as described above, and subsequently, referring to FIG. 3, A structure for supplying electric power to a surrounding water structure or a water quality purification apparatus using a centralized solar power plant 20 using a float for photovoltaic power generation according to an embodiment of the present invention will be described.

That is, referring to FIG. 3, FIG. 3 is a schematic view illustrating a structure of a water turbine (hereinafter referred to as " 31 and the water quality purification apparatus 32 according to an embodiment of the present invention.

3, in order to supply the electricity produced by the solar power generation plant 30 to the water structure 31 or the water quality purification device 32, for example, a water rope 33 and a rope made of polyester Lt; RTI ID = 0.0 > 34 < / RTI >

That is, when the underwater cable 33 is used alone, a problem may occur such that the cable is subjected to a force or is pushed by the floods due to floats such as garbage and short-circuited. Therefore, The water structure 30 and the water structure 31 and the water quality purification apparatus 32 may be fixed to the floor surface by using the rope 34 together with the roof structure 34. [

At this time, the connection of the underwater cable 33 between the solar power generation plant 30 and the water structure 31 and the water quality purification apparatus 32 is performed by connecting the underwater cable 33 along the bottom surface of the lake The underwater cable 33 is connected to one side of each of the water structure 31 and the water quality purification apparatus 32 and the rope 34 is connected only to the side on which the underwater cable 33 is fixed, Even if only one rope 34 is provided on one side of each of the water structure 31 and the water quality purification device 32, it is possible to provide a stable fixing Lt; / RTI >

Accordingly, the centralized solar power plant using the float for solar photovoltaic power generation according to the present invention can be implemented as described above.

Also, by implementing the centralized solar power plant using the float for solar photovoltaic power generation according to the present invention as described above, according to the present invention, A centralized photovoltaic power plant using a float for solar photovoltaic power generation, which is configured to store the generated power in a battery, and to supply necessary electricity to various water purification apparatuses and aquariums installed in the water via the switchboard It is possible to solve the hassle of the prior art in which separate means or devices for switching AC to DC when an external power source is used can be solved by supplying DC power stored in the battery directly to each device or structure.

In addition, according to the present invention, there is provided a centralized solar power plant using a float for an aquarium photovoltaic power generation, which is configured to provide a reflector capable of reflecting solar light on the top surface of a floating body for aqua- The amount of light condensed on the solar module is increased by forming a curvature on the reflector to increase the amount of power generated by each solar module and to prevent the intrusion of algae or wild animals and to provide additional facilities In addition to eliminating the need for installation, maintenance and construction costs can be reduced. In addition, there is no need to clean from time to time, saving labor costs and reducing the risk of safety accidents.

Further, according to the present invention, an ultraviolet shielding member is formed by using a synthetic resin or a reflector in accordance with the shape of the solar module on the top surface of a floating solar power generator installed in the aquarium and the portion where the reflector is not installed, The present invention provides a centralized solar power plant using a float for solar photovoltaic power generation that is configured to be connected to an upper surface of a float, or to be coupled together when a float is connected.

According to the present invention, an auxiliary buoyancy body having a constant buoyancy is provided between the float for photovoltaic power generation and the fixing means when the fixing means for fixing the photovoltaic power station installed on the water phase is installed on the bottom surface of the water A centralized solar photovoltaic power generation plant using a floating photovoltaic power generation float is constructed and arranged so that the auxiliary float body rises or falls according to a change in the water level, So that the tension can be maintained constantly at all times, thereby preventing the solar power plant installed on the waterfront from being rocked and lost and being fixed at the installation position.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims and their equivalents. I will work.

10, 20, 30. Solar power plant 11. Floating fluid for fixing solar modules
12. Photovoltaic power generation unit 13. Power storage unit
14. Power supply 21. Floating fluid for fixing solar modules
22. Solar module 23. Battery
24. Battery protection case 25. Switchboard
26. Reflector 27. Ultraviolet shielding member
28. Fluid for fencing 29. Securing means
31. Water structure 32. Water purification system
33. Underwater cable 34. Rope
35. Fixing means 36. Ancillary buoyancy bodies

Claims (12)

In addition to the inconvenience of installing an inverter to convert AC to DC when supplying AC electricity by using underwater cable on land, pollution or damage is caused by algae or animals and frequent cleaning and maintenance work is required In a centralized photovoltaic power generation plant using a float for a photovoltaic power generation system configured to solve the problems of prior art photovoltaic power generation plants having a problem,
A plurality of solar module immobilization fluids installed in the water phase;
A plurality of photovoltaic modules mounted on a surface of the water using the respective floats for fixing the photovoltaic modules;
A power storage unit for storing power generated by each of the solar modules of the solar power generation unit;
An electricity distribution board for supplying power stored in the power storage unit to an external water purification apparatus or a water structure;
An underwater cable for supplying electric power to each of the aquatic structures or the water purification apparatus;
In order to prevent the underwater cable from being pushed by the water or short-circuited by the float, it is necessary to fix each of the solar power generation plant, the aquatic structure and the water quality purification device together with the underwater cable on the floor surface Rope for; And
And fixing means constructed using a heavy material including an anchor or concrete for preventing flow and loss of the solar power plant and fixing the solar power plant at an installation position,
In the solar power plant,
The underwater cable is installed along the bottom surface to connect the underwater cable to one side of each of the aquatic structures or the water quality purification apparatus and the rope is connected only to a side opposite to the side where the underwater cable is fixed, Wherein the water pump is configured to be fixed to the bottom surface of the water purifier, so that even if only one rope is provided on one side of each water structure or the water purification device, Concentrated solar power plant.
The method according to claim 1,
The solar module fixing fluid includes:
And a reflector provided on a portion of the top surface of each of the plurality of solar module fixing fluids that is not provided with the solar module so as to reflect sunlight incident on the solar module fixing fluid, ,
And a power generation amount can be increased by increasing the amount of light condensed on the photovoltaic module.
3. The method of claim 2,
The reflector
Wherein the upper surface of each of the solar cell module fixing sub-fluids is attached to the upper surface of the solar cell module fixing fluid in accordance with the shape of the portion where the solar cell module is not installed, Wherein the solar cell module is formed so as to be integrally formed when the solar cell module fixing fluid is manufactured.
The method of claim 3,
The solar module fixing fluid includes:
Shielding member formed on the top surface of each of the solar cell modules for fixing the solar cell module and the upper surface of the solar cell module fixing fluid formed in the shape of the portion where the solar cell module and the reflector are not installed, Further,
Wherein the upper surface of the upper surface of the solar cell module fixing sub-fluid is directly exposed to ultraviolet rays to prevent photodecomposition, thereby extending the service life of the solar cell module fixing fluid. Centralized photovoltaic power plant using float.
The method according to claim 1,
The solar module fixing fluid includes:
The solar cell module is formed to be able to mount the solar module on the upper surface in a rectangular shape using a material floating in water including polyethylene,
The solar cell module according to any one of the preceding claims, further comprising a connection ring formed on the outer surface of each of the solar module fixing fluids for connecting the solar cell module fixing fluids to each other, Wherein the centralized solar power plant comprises a float for solar photovoltaic power generation.
The method according to claim 1,
The solar power generator includes:
One of the solar modules may correspond to one solar module fixing fluid,
Wherein one solar module is disposed between and installed in at least two of the plurality of solar module fixing sub-fluids.
The method according to claim 1,
The power storage unit includes:
At least one battery for storing electrical energy generated by each of the solar modules; And
And a battery protection case formed to individually or integrally accommodate each of the batteries in order to prevent the occurrence of an abnormality in the electric system due to splashing of water on the battery or contamination or damage by surrounding birds or animals Wherein the centralized solar power plant comprises a float for solar photovoltaic power generation.
The method according to claim 1,
The power supply unit includes:
A charge controller for storing electrical energy generated by each of the solar modules in a battery of the power storage unit;
An electric power distribution panel for supplying electric power to the water structure or the water quality purification device installed in the vicinity of the solar power generation plant using electric energy stored in each battery of the power storage unit; And
And a remote control controller for individually selecting and turning on and off the power source of each of the water structure and the water purification device at a land or a remote location. Solar power plant.
The method according to claim 1,
In the solar power plant,
A plurality of foul floats formed by covering a cylindrical float with a nonwoven fabric made of a synthetic fiber material and covering the outer surface with a net made of synthetic fibers,
The float for the fence is connected to each other so as to surround the outer periphery of the solar power generation station so as to prevent swinging by water or water and splash of water and to prevent intrusion of animals from the outside Centralized photovoltaic power plant using float for photovoltaic power generation.
delete The method according to claim 1,
In the solar power plant,
Further comprising an auxiliary buoyant body provided between the solar module fixing fluid and the fixing means at a predetermined constant buoyancy at the time of installation of the fixing means,
And the auxiliary buoyant body is raised or lowered according to the change of the water level so that the tension of the rope connecting the solar module fixing fluid and the fixing means can be always maintained in a tensioned state, And to prevent leakage and to be fixed at an installation position. The centralized solar power plant using float for solar photovoltaic power generation.
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