KR20150006520A - Award-winning photovoltaic power generation system - Google Patents

Abstract

The present invention relates to a photovoltaic power generating system installed on water such as lake, reservoir, river, or sea. The present invention increases the strength of a floating body which is made of a material with high durability, prevents breakage of the floating body due to the movement of water, can generate electricity by using sunlight without the maintenance of the floating body, can produce a large amount of electricity by connecting multistory photovoltaic power generating systems. For this, the present invention includes a floating body (1) which comprises a pair of floating materials (3) which is cylindrical, is fixed to brackets (2) and floats on the water, a falsework (5) which is fixed to the upper edge of the floating material, a metallic connection member (4) fixed at the falsework; and an existing solar cell module (6) fixed to the upper side of the floating material.

Description

Award-Installed Photovoltaic Power System {omitted}

The present invention relates to a solar cell module installed in an aquarium such as a lake, a reservoir, a river, a sea, and the like. More specifically, a solar cell module for converting solar energy into electric energy is installed in a watercourse, The present invention relates to a water-mounted solar power generation system that is not required.

Generally, a power generation system that generates electricity is classified into a thermal power generation using fossil fuel such as petroleum or coal, and a power generation using solar power, nuclear power, hydroelectric power, tidal power, and wind power depending on the energy source used.

Among these power generation systems, a power generation system using nuclear power has an advantage that electricity can be obtained at a lower cost than thermal power generation, but installation is limited due to environmental pollution due to radioactivity and harmfulness of human body.

Moreover, recently, facility investment has not been smooth due to the disposal of nuclear waste generated after electricity production.

In the case of thermal power generation, fossil fuels such as coal and petroleum are used. These generation fuels not only discharge substances that pollute the environment but also cost a lot to purchase fuel.

Furthermore, recently, oil prices have been rising due to a decrease in resource reserves, and as a result, power generation costs have increased, and it is possible to replace them, and development of clean energy that does not generate substances that pollute the environment is required.

In addition, recently, regulations for suppressing the emission of carbon dioxide are being implemented worldwide, and it is required to develop a new power generation system without emission of carbon dioxide.

As such, there is no emission of carbon dioxide. Power generation system using solar energy is representative of a power generation system using clean energy. Recently, the development and installation costs of technology have been reduced, and the spread of the power generation system has become widespread.

In such a photovoltaic power generation system, there is a difference in generating capacity depending on the generation area and the amount of sunshine.

However, in order to install such a photovoltaic power generation system on a large area, there is a problem that a lot of land is used due to the use of a huge amount of land, the cost is high due to the purchase or compensation of the land, There are difficulties in establishing the facility to draw the cooperation of the surrounding people.

Also, as in the past, a solar power generation system installed on the land generates a huge amount of heat in the process of generating electricity by receiving sunlight, and a great amount of heat is transmitted from the land where the solar power generation system is installed have.

The heat transferred to the photovoltaic power generation system deteriorates the performance of the photovoltaic module and causes a failure, and the power generation efficiency of the photovoltaic power generation system is lowered.

Accordingly, in recent years, the technology for installing a solar power generation system having a number of advantages as described above has been spurred.

FIG. 1 is a front view of an aquatic photovoltaic power generation system provided with a variable support rope according to a patent No. 1162473. FIG. 2 is a plan view of FIG. 1, showing a float 10 A solar power generation facility 20 installed on the float 10; a pulley 30 installed at a predetermined interval on the periphery of the float 10; A support rope 40 for fixing the float 10 by being guided in the support rope 40 and one end of the support rope 40 being connected to an anchor 50 of a weight installed on the water floor, (40) is connected to the tension holding weight (60).

The float 10 includes a plurality of solar modules 22 mounted on a support 14 so as to float on a water surface of a predetermined size by interconnecting a plurality of floats 12 made of styrofoam or the like with support rods 14, So that the solar power can be generated.

The solar power generation facility 20 includes a solar cell module 22 for converting solar energy into electric energy and a capacitor (not shown) for charging electricity generated by the solar cell module 22 Lt; / RTI >

The pulley 30 includes four corners or four corners of the float 10 provided on the periphery of the float 10 and provided in a rectangular shape on the plane, So that the float 10 can be supported by a means for guiding the support rope 40.

The anchor 50 of the weight is installed on the bottom surface of the water at a position where the support rope 40 can support the support rope 40 at the outer side of the periphery of the float 10 so that the float 10 descends The support rope 40 is maintained in a taut state while descending along the pulley 30 without being interfered with by the tension retaining weight 60 against the support rope 40 or the like.

One end of the support rope 40, which is guided by the pulley 30 and fixed to the float 10, is connected to an anchor 50 of a weight installed on the water floor, At the other end of the rope 40, a tensile force weight 60 is suspended.

A plurality of solar modules 22 are mounted on the support 14 of the float 10 so as to be able to float on the water surface at a constant size by mutually connecting the plurality of floats 12 with the support rods 14, It is possible to absorb the sunlight to the maximum extent and to generate power by the solar power generation facility 20 installed in the building.

The support rope 40 is guided by a pulley 30 provided at a predetermined interval on the periphery of the float 10 on which the water PV system 20 is installed, A supporting rope 40 is connected to an anchor 50 of a weight mounted on the floor and the other end of the supporting rope 40 is connected to a tension weight 60 for fixing the float 10 Even when the water level changes, you can always keep it tight.

That is, when the float 10 is lowered as the water level is lowered, the absolute distance between the anchor 50 connecting the one end of the support rope 40 and the pulley 30 becomes close, The weight lifting weight 60 connected to the other end of the support rope 40 that is inserted and guided by the pulley 30 is lowered by its own weight and pulls the support rope 40, And is supported by the rope 40 in a taut manner.

In contrast, when the float 10 rises due to a height of the water level, the absolute distance between the anchor 50 connecting the one end of the support rope 40 and the pulley 30 is increased, The support rope 40 is pulled in the direction of the pulley 50 so that the support rope 40 is tensioned by the weight retaining weight 60 connected to the other end of the support rope 40 that is inserted and guided by the pulley 30, So that the position of the aquamarine solar power generation system 20 is not changed.

However, such a conventional power generation system has various advantages by installing a solar power generation system on a wide water surface, but the following problems have arisen.

First, since the float structure is not robust and the floating body must be supported by the supporting rope so that the floating body does not flow due to the wind or the like, an additional anchor is provided on the bottom surface, and the weight for weight maintenance is attached to the other end .

Therefore, although it is easy to install in reservoirs with low depth, installation is limited in deep lake, solder, and sea.

Second, since the buoy constituting the float is made of styrofoam and the like, the durability is poor, and the maintenance time is shortened due to frequent maintenance and the like, resulting in an increase in the production cost and also the contamination of the sea surface due to the breakage of the buoy .

Third, due to the durability of the bulb, it is impossible to construct the superfluid system.

Disclosure of Invention Technical Problem [8] The present invention has been devised to solve such a problem of the prior art, and it is an object of the present invention to provide a durable material for durability and a durability of the durability, So that it is possible to produce electricity using light.

Another object of the present invention is to connect solar power generation systems in multiple stages to produce a large amount of electricity at a time.

According to an aspect of the present invention for achieving the above object, there is provided a buckle comprising: a pair of buoyancy members fixed to a bracket provided in a cylindrical shape and floating on water; a footrest fixed to an upper edge of the buoyancy member; And a public solar module fixedly installed on an upper surface of the suspended body. The solar power generation system according to claim 1,

According to another aspect of the present invention, there is provided a boom having a pair of buoyant members fixed to a plurality of brackets, floating in water, a footrest fixed to a top edge of the buoyancy member, Installed solar power generation system comprising a floating solar cell module and a publicly known solar module fixedly installed on the upper surface of the solar cell module, are connected to each other by two or more continuous connection hinges, .

In the present invention, since the strength of the brackets and the buoyant material is large, the floating matter is prevented from being damaged by the waves and the like, thereby enhancing the durability of the water-mounted PV system. In addition, This prevents the rocking phenomenon, which makes solar power generation possible without fixing the water-mounted PV system to the floor.

In addition, it is possible to construct a large-scale power generation system by connecting the water-mounted solar power generation system directly or in parallel so that a large amount of electric power can be produced.

1 is a front view of an aquarius photovoltaic system with a variable support rope according to patent No. 1162473
Fig. 2 is a plan view of Fig. 1
3 is an exploded perspective view of the present invention
Fig. 4 is a perspective view of the assembled state of Fig.
5 is a longitudinal sectional view showing an embodiment of the present invention.
6 is a perspective view showing another embodiment of the present invention.
Fig. 7 is a longitudinal sectional view of Fig. 6
Fig. 8 is a perspective view of the present invention,
Fig. 9 is a perspective view showing the state where the present invention is installed on the beach.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 3 to 5 showing an embodiment.

FIG. 3 is an exploded perspective view of the present invention, FIG. 4 is a perspective view of the assembled state of FIG. 3, and FIG. 5 is a longitudinal sectional view of an embodiment of the present invention. A pair of buoyancy members 3 fixed to the brackets 2 and floating on the water, a footrest 5 fixed to the upper edge of the buoyancy member, And a known solar module 6 is fixedly installed on the upper surface of the scum 1.

At this time, the bracket 2, the buoyant material 3, and the footplate 5 are made of polyethylene (PE), which is excellent in corrosion resistance, mechanical strength, recyclability, ), Medium density polyethylene (MDPE), and high density polyethylene (HDPE).

The photovoltaic module 6 installed in the suspended solids 1 is a well-known technology, and thus a specific structure thereof will be omitted.

5, the pile supporting member 7 is fixed to the edge of the float 1, so that the pipe supporting member 7 is inserted into the pile supporting member 8, It is understandable that it can be fixed to the floor.

In addition, since the fish floe and the water case (S) are installed in the float (1) so as to be submerged in water, it contributes to the growth and development of the meat and, furthermore, the water quality improvement effect can be expected.

6 is a perspective view showing another embodiment of the present invention. The solar power generating system of the present invention having the same structure as that of the embodiment of the present invention is configured to connect two or more consecutive solar power generation systems by a connection hinge 9 .

It is more preferable that the connecting portion of the suspension 1 and the connecting hinge 9 has a hinge structure so that the suspension 1 can move freely on the connecting portion when the suspension 1 flows.

As a result, a large-scale award-winning solar power generation system can be realized.

Hereinafter, the operation of the present invention will be described.

First, in order to realize a water-mounted solar power generation system of a desired size, a bracket 2 is fitted to a cylindrical buoy- ding member 3 with a predetermined gap kept therebetween, and a cylindrical buoy- ding member 3 is heated to a predetermined length So that they are mutually thermally fused.

After the bracket 2 is fixed to the pair of buoyant members 3 connected to each other by the above-mentioned operation, the foot plate 5 is fixed so that the operator can move to the front and rear surfaces of the bracket 2 And at the same time fixing the metal connecting member 4 between the foot plates, the floating body 1 is maintained in a rigid state.

After completion of the assembly of the suspension 1, a known solar module 6 is installed on the upper surface of the connecting member 4 having a strength, and the water-mounted solar power generation system of the present invention is completed. As shown in Fig. 5, the steel pipe pile 8 is sandwiched between the pile supporting member 7 fixed to the edge of the suspended article 1 in the water-mounted PV system thus completed, It is possible to prevent the float from being severely oscillated even if a wave occurs due to wind or the like.

Meanwhile, as shown in FIG. 6 as another embodiment, it is understood that a plurality of water-mounted solar power generation systems can be connected by a connection hinge 9 to realize a water-mounted solar power generation system of a desired capacity.

In the present invention, since components are excellent in corrosion resistance, mechanical strength and recyclability, they can be easily assembled by a heat fusion method and can be firmly adhered to each other. Therefore, even if used for a long time, It becomes possible to realize an installation type solar power generation system.

It is to be noted that the technical spirit of the present invention has been specifically described according to the above-described preferred embodiments, but it should be noted that the above-described embodiments are intended to be illustrative and not restrictive.

It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

1: float 2: bracket
3: buoyant material 4: connecting member
5: Scaffold 6: Photovoltaic module
7: file support member 8: steel pipe file
9: Connection hinge

Claims (6)

A pair of buoyancy members (3) fixed to a plurality of brackets (2), floating on the water, a footrest (5) fixed to the upper edge of the buoyancy member, and a metal member A floating member (1) composed of a connecting member (4), and a known solar module (6) fixed on the upper surface of the floating member. The method according to claim 1,
Wherein a pile supporting member (7) is fixed to an edge of the floating member (1), and the pile supporting member (8) is fitted to the pile supporting member (8). The method according to claim 1 or 2,
Wherein the float (1) is provided with a catch (S) and an immersed reef (S) to be immersed in the water at the edge of the float (1). A pair of buoyancy members (3) fixed to a plurality of brackets (2), floating on the water, a footrest (5) fixed to the upper edge of the buoyancy member, and a metal member Mounted solar photovoltaic power generating system comprising a floating body 1 composed of a connecting member 4 and a known solar module 6 fixed on the upper surface of the floating body is connected by a connection hinge 9 to two or more continuous And the solar power generation system is installed in the water installation. The method of claim 4,
Wherein a pile supporting member (7) is fixed to an edge of the floating member (1), and the pile supporting member (8) is fitted to the pile supporting member (8). The method according to claim 4 or 5,
Wherein the float (1) is provided with a catch (S) and an immersed reef (S) to be immersed in the water at the edge of the float (1).

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