KR20130071831A - Surface of water floating platform for solar energy generation - Google Patents

Abstract

PURPOSE: A floating platform for solar energy generation is provided to reduce installation and management costs by simplifying the installation and movement of the platform regardless of the depth of water. CONSTITUTION: A platform floating on the water for solar energy generation comprises a floating plate (110), a center post part (120) having a first length, multiple outer support parts (130) having a second length, and a propulsion part. The floating plate floats using buoyancy, and a sunlight concentration module thereon. The center post part is vertically formed on the bottom center of the floating plate to locate the center of gravity underwater. The outer support parts are formed on the bottom of the floating plate toward underwater and disperse a part of the weight of the floating plate outward. The propulsion part has one or more underwater propulsion units (140) for the rotation and movement of the floating plate.

Description

SURFACE OF WATER FLOATING PLATFORM FOR SOLAR ENERGY GENERATION}

The present invention is for a surface floating platform for photovoltaic power generation, in particular non-fixed installation to float on the surface of the deep reservoir or lake to facilitate the installation and freely move and rotate according to the position and altitude of the sun by themselves It relates to a surface floating platform for solar power.

Energy is the most essential element in modern life, and it is expected that the demand will gradually increase. However, as environmental changes such as oil price surge and climate change due to the use of fossil fuels are emerging, research on environmentally friendly energy sources is urgent.

Recently, in the government and industry, green energy as green growth and green technology has been spotlighted as the most ideal green energy source. As interest in solar energy, which is one of the environmentally friendly energy, is amplified, solar power generation systems that directly convert sunlight into electric power by solar cells are rapidly increasing.

The photovoltaic power generation system is composed of a module consisting of a solar cell, a storage battery and a power converter, the power generation efficiency of which depends on the amount of solar radiation. In order to increase power generation efficiency, a site with good solar radiation should be selected, and civil works such as work to install solar cells on the selected site should be carried out.

However, in the case of installing the PV system on land, due to the enormous site cost and the cost of civil engineering, the practical use of the PV system has not been widely achieved despite the advantages of the PV generation. Thus, a method of installing the solar power system in the water, that is, a water-based solar power system has been proposed.

The water-based photovoltaic power generation system is mainly installed in the surface of the surface of the lake, reservoir, river, sea, etc., there is an advantage that can be obtained eco-friendly energy from sunlight without environmental pollution by using the idle water surface.

However, unlike the system installed on the surface of the surface floating solar power generation device, there is a problem that the fixed installation of the surface floating platform to support the solar panels floated on the water surface if the depth is deep.

1 and 2 is an exemplary view of such a conventional surface-floating photovoltaic device, referring to Figures 1 and 2, the conventional surface-floating photovoltaic device 100 is floating floating on the water surface. The plate member 110, the photovoltaic power plant 120 mounted on the floating plate 110, the post member 130 and the post member 130 that are disposed in a state perpendicular to the water surface through the floating plate 110. First support means 140 is fixedly connected to the upper end of the second support means 150 is fixedly connected to the lower end of the post member (130).

The first support means 140 connected to the upper end of the post member 130 includes a plurality of cables. 1 and 2, two first and second cables 141 and 142 constitute a first support means 140.

The first cable 141 of the first support means 140 has a first end fixed to the upper end of the post member 130, the second end is fixed to the structure (141-1) installed on one river side of both sides of the steel. do.

In addition, the second cable 142 of the first supporting means 140 has a first end fixed to the upper end of the post member 130, the second end is connected to the structure 142-1 installed on the other river side of the both eyes of the steel. It is fixed.

Here, the first and second cables 141 and 142 of the first support means 140 are arranged in a straight state, the first and second cables 141 and 142 are arranged in a direction perpendicular to the flow direction of the river. do. In addition, the first and second cables 141 and 142 are installed to be perpendicular to the post member 130.

The first cable 151 of the second support means 150 has a first end fixed to the lower end of the post member 130, and the second end is fixed to the river bottom adjacent to one riverside.

In addition, various means may be used to secure the second end of the first cable 151 to the riverbed. For example, by fixing the anchor 151-1 to the river bottom with the anchor 151-1 fixed to the second end of the first cable 151, the second end of the first cable 151 is connected to the river bottom. Can be fixed.

As another means, after the concrete structure is constructed on the bottom of the river, the second end of the first cable 151 can be fixed to the concrete structure.

As such, the conventional surface-floating photovoltaic device needs to fix a part of the post member 130 to the bottom of the water or to fix a plurality of cables for fixing the floating plate 110 to an artificial structure or the like. In the case of wide reservoirs or lakes, it is impossible to install them realistically. After installation, maintenance is very difficult and the cost is also very high compared to the ground-based solar power generation.

In addition, the conventional surface-floating photovoltaic device is a solar focusing panel that tracks the solar altitude and location to optimize the photovoltaic power generation efficiency through the drive unit of the photovoltaic facility 120 installed in the floating plate 110. The change of direction occurs, the solar power plant 120 has a problem that the efficiency of photovoltaic power generation is too low because the energy consumption of the change of direction is excessive compared to its power generation capacity due to the very heavy reason.

Korean Patent Publication No. 10-2011-0053210

An object of the embodiment of the present invention for improving the above-mentioned problems is compared to the conventional surface floating platform method of fixing to the water floor by non-fixing the post to be positioned in the water in the center of the bottom of the floating plate on which the solar focusing module is installed It provides a surface floating platform for photovoltaic power generation that is very easy to install and move regardless of depth.

Another object of the embodiment of the present invention for improving the above-mentioned problem is to configure the one or more underwater propulsion means on one side of the lower platform to thereby rotate the rotation and movement of the platform through the rotation of the solar focusing panel installed on the floating plate It is to provide a surface floating platform for photovoltaic power generation so that no separate drive means is required.

Another object of the embodiment of the present invention for improving the above-mentioned problem is to configure the at least one outer support portion that is configured in the underwater direction from the lower side of the floating plate and the outer support portion is provided with a height adjustment means using the buoyancy to the outside weight distribution It is to provide a surface floating platform for photovoltaic power generation to be partially distributed and to adjust the height of the platform and the water surface.

Another object of the present invention for improving the above-mentioned problems is to provide one or more connecting means for the interconnection installation on the outside of the floating plate to facilitate the installation and modification according to the installation area, installation environment or solar power capacity It is to provide a sleep injury platform for solar power generation.

The surface floating platform for solar power generation according to an embodiment of the present invention for achieving the above object is a floating plate capable of surface injury using buoyancy and the solar focusing module is installed, the water surface from the lower center of the floating plate A center post portion of a first length configured to have a center of gravity in the water in a vertical direction to the water, and a plurality of outer support portions of a second length configured in the water direction from a lower outer side of the floating plate to partially distribute the entire weight distribution to the outside And a propulsion unit including one or more underwater propulsion means configured on the lower one side or the outer support of the floating plate for rotation and movement of the floating plate.

Preferably, the surface floating platform further includes a blocking portion having one or more blocking films of a predetermined length configured between the outer support portions.

On the other hand, the outer support portion is provided with air and water in the interior space, by adjusting the amount of water through the injection, outflow of the air to distribute the total weight of the platform in the water and to increase the height of the floating plate and the water surface It is preferable to have height adjusting means for adjusting.

At this time, it may further include an air control unit for the automatic control or individual control of the height adjustment means provided in each of the outer support.

The floating plate is preferably in the form of one of square, rectangular, circular, and oval.

On the other hand, the first length is preferably longer than the second length.

The floating plate may further include a connection portion having at least one connection means for interconnection installation.

At this time, the center post is preferably configured to be detachable.

The surface floating platform for photovoltaic power generation according to an embodiment of the present invention is a conventional surface floating platform to be fixed to the bottom of the water by a non-fixed configuration of the post in the water in the center of the bottom of the floating plate on which the solar focusing module is installed Compared to the method, installation and movement are very easy regardless of the depth of the water, thereby reducing the manufacturing installation and maintenance costs.

The surface floating platform for solar power generation according to an embodiment of the present invention comprises one or more underwater propulsion means on one side of the lower platform of the solar focusing panel installed on the floating plate by performing the rotation and movement of the platform through this By eliminating the need for a separate driving means for rotation, there is an effect of further increasing the efficiency of photovoltaic power generation.

The surface floating platform for solar power generation according to an embodiment of the present invention comprises at least one outer support portion configured in the underwater direction from the bottom of the floating plate and the outer support portion is provided with a height adjustment means using the buoyancy to increase the overall weight distribution Partial dispersion to the outside and the height between the platform and the surface of the water surface can be adjusted to have an effect of easily securing the support stability irrespective of the weather environment changes such as the water flow state or the sudden change of the wind state.

Surface floating platform for solar power generation according to an embodiment of the present invention is provided with one or more connecting means for the interconnection installation on the outside of the floating plate to facilitate installation and modification according to the installation area, installation environment or solar power capacity Therefore, the convenience of installation is very high.

1 is a first exemplary view of a conventional surface-floating photovoltaic device.
2 is a second exemplary view of a conventional surface-floating photovoltaic device.
Figure 3 is an illustration of a surface floating platform for solar power according to an embodiment of the present invention.
Figure 4 is an illustration of the installation of the surface floating platform for solar power according to an embodiment of the present invention.
5 is an exemplary view of a driving unit according to another embodiment of the present invention.
6 is an exemplary view of a blocking unit according to another embodiment of the present invention.
7 is an exemplary view of a support according to another embodiment of the present invention.
8 is an exemplary view of a connector according to another embodiment of the present invention.
9 is an exemplary view illustrating the installation of a surface floating platform for photovoltaic power generation of the connection form according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

Figure 3 is an illustration of a surface floating platform for solar power according to an embodiment of the present invention.

The surface floating platform is capable of surface injury using buoyancy and floating plate 110, the solar focusing module is installed, is configured so that the center of gravity in the water in the vertical direction with the water from the lower center of the floating plate 110 Central post portion 120 of the first length, a plurality of outer support portion 130 and the floating plate of the second length is configured in the underwater direction from the lower outer side of the floating plate 110 to partially distribute the entire weight distribution to the outside And a propulsion unit 140 having one or more underwater propulsion means configured on the lower one side or the outer support 120 of the floating plate 110 for rotation and movement of the 110.

The central post portion 120 is configured in such a way that the floating plate 110 is mostly locked in water without being fixed to the bottom of the water when the surface is injured.

In general, the surface-floating photovoltaic device is installed in a reservoir, lake, etc., where the flow of water is calm, and should be installed in a relatively large area in order to secure enough irradiation of solar light.

Therefore, it is installed in a lake that is relatively wider and deeper than a narrow river or river.

However, in the conventional surface-floating photovoltaic device, since a part of the post member is fixed to the underwater floor or a plurality of cables for fixing the floating plate must be fixed to the surrounding artificial structure or the like, a reservoir having a very deep or wide depth In the case of lakes, the installation is not practical, maintenance is very difficult after installation, and the cost is also very high compared to the ground-based solar power generation.

However, the surface floating platform according to an embodiment of the present invention is easy to install through the configuration of the central post portion 120 which is located in a fixed position in the water and its manufacturing cost is also very low compared to the method of fixing to the bottom of the water surface .

That is, the surface floating platform for photovoltaic power generation according to an embodiment of the present invention is configured to be non-fixed to the water so that the post 120 is located at the center of the lower portion of the floating plate 110, the solar focusing module is installed underwater Compared to the traditional surface-floating platform, which is anchored to the floor, installation and movement is very free at any depth and reduces manufacturing installation and maintenance costs.

In addition, the central post portion 120 distributes the center of gravity of the entire platform in the water, and the position of the center of gravity of the platform can be located in the center of the platform can easily ensure the stability of the support of the entire platform on the water surface .

In addition, through the configuration of the outer support portion 130 which is configured in the underwater direction from the bottom outside of the floating plate 110, the entire weight distribution is partially distributed to the outside so that the overall weight distribution is stably positioned in the outside of the platform and in the water. It is possible to more easily secure the supporting stability of the solar focusing module regardless of the weather environment changes such as a sudden change in flow conditions or wind conditions.

At this time, the outer support 130 is not necessarily configured to be perpendicular to the water surface, and may be configured in the water at a predetermined angle to maximize the stability of the support in consideration of the weight distribution or buoyancy when there is buoyancy. Note that there is.

In addition, the first length of the central post portion 120 is configured to be longer than the second length of the outer support portion 130 in order to further strengthen the support stability so that the center of gravity due to the load force is lower than the center point due to buoyancy It is preferable to further stabilize.

In addition, the floating plate 110 may be any shape, but is preferably in the form of one of a square, a rectangle, a circle, and an oval.

On the other hand, the surface floating platform is preferably to move or change the direction by tracking the altitude or direction of the sun in order to secure a sufficient amount of solar radiation, the surface floating platform of the present invention is a underwater propulsion means such as a screw unit ( 140 is provided on one side to perform rotation and movement through it.

At this time, the center post portion 120 may be a central axis (1) of rotation at the time of rotation (2) by the propulsion unit 140 to facilitate the change of direction of the surface floating platform.

4 is an exemplary view illustrating installation of a surface floating platform for photovoltaic power generation according to an embodiment of the present invention.

The conventional surface-floating solar power generating device is configured to drive the solar focusing module 10 itself in order to turn the solar focusing panel to rotate the solar focusing panel.

However, since the driving unit is configured in the photovoltaic focusing module itself, the weight and volume of the photovoltaic focusing module 10 are increased and the energy consumption for driving is also increased, thereby decreasing the photovoltaic power generation efficiency.

That is, because the solar focusing module 10 is very heavy, the energy consumption of the redirection is excessive compared to its own power generation capacity, resulting in low overall solar power generation efficiency.

However, the surface floating platform for solar power generation according to an embodiment of the present invention, as shown in Figure 3 and 4, one or more underwater propulsion means 140 on the lower side of the platform and through this direction rotation of the platform (2) And it is configured to perform the movement does not need a separate drive means for the rotation of the solar focusing panel 10 installed in the floating plate 110 can further increase the efficiency of solar power generation.

That is, since the energy consumed to rotate or move the entire surface floating platform using the underwater propulsion means 140 is much less than the energy consumed to directly drive and rotate the solar focus module 10 due to the buoyancy effect. This can further increase the efficiency of solar power generation.

In addition, since the center post portion 120 becomes the center 1 of the rotation, the direction change can be more stably performed.

5 is an exemplary view of the driving unit according to another embodiment of the present invention installed for changing the direction or movement of the above-mentioned surface floating platform.

As shown in FIG. 3, the propulsion unit 140 may include one or more underwater propulsion means provided on the lower side of the floating plate 110 to perform rotation and movement of the surface floating platform. As shown in the lower portion of the outer support 130 may be configured to perform the rotation (6) and the movement (4, 5).

Preferably, when configured on the lower one side, it is preferable to configure a plurality of so as to be located at the same distance from the center post portion 120 to be the rotation center to facilitate easier rotation, when configured on the outer support 130 It is preferable that the rotation 6 is freely configured by installing at the lower end according to the number of the supporting parts 130, but the number or position of the configuration may be anywhere as long as it is easy to rotate and move.

Or, in a preferred embodiment, the sleep injury platform further comprises a GPS and adjusts its position using the GPS position information and the propulsion unit or may be configured to track the exact position according to the altitude and direction of the sun. have.

6 is an exemplary view of a blocking unit according to another embodiment of the present invention.

Preferably, the blocking unit 170 includes one or more blocking films 170 having a predetermined length formed between the outer support units 130.

As described above, the surface floating platform is generally installed in a calm lake or reservoir, but some water flow may be generated due to wind or dam discharge.

In order to prevent the flow of the surface floating platform due to the blocking unit 170, it is preferable to configure the blocking film with a predetermined length and width between the outer support 130, as shown.

Through this configuration, the blocking unit 170 may further prevent the flow of water between the outer support 130 may further enhance the overall support stability of the surface floating platform.

In addition, the blocking unit 170 may be made of a soft material such as cloth or vinyl, but is preferably made of a relatively hard member such as wood, plastic or metal.

Figure 7 is an illustration of the outer support according to another embodiment of the present invention.

Referring to FIGS. 3 and 7, the outer support 130 includes air 7 and water 8 in an interior space of the outer support 130, and injects and discharges the air 7 to discharge the water 8. It is preferred to have a height adjusting means 160 that adjusts the amount 10 to distribute the total weight of the surface of the floating surface platform underwater and to adjust 9 the height between the floating plate 110 and the water surface.

At this time, the injection, outflow 10 of the air (7) of the height adjustment means 160 can be easily configured through a pump or the like.

The outer support 130 is provided with height adjusting means 160 to maintain the center of gravity and distribution evenly at the time of initial installation of the surface floating platform, the location of the solar focusing module installed on the floating plate 110 Irrespective of the center position of the weight according to the individual buoyancy control through each height adjustment means 160 to maintain the overall weight distribution and center of gravity uniformly.

As such, the outer support 130 has the advantage of distributing the entire weight of the surface floating platform to the outside and in the water alone to ensure the stability of the support, but the configuration of the above-described height adjustment means 160 Through the support stability can be further enhanced.

As another example, when the wind in the location where the surface of the surface floating platform is installed is generated by the water flow, the surface of the surface of the surface floating platform is caused to shake.

At this time, when the air (7) is further injected into the outer support 130 through the height adjusting means 160 to further strengthen the buoyancy, the outer support is stronger, so that it does not easily shake even in the strong current.

In addition, the overall height is increased to prevent the water from invading the upper portion of the floating plate 110 to damage the solar focus panel or reduce the power generation efficiency.

Subsequently, when the surrounding environment is restored to its original state, the air 7 inside the outer support 130 is discharged again through the height adjusting means 160 to lower the overall height.

To facilitate this, as shown in FIG. 3, the surface floating platform has an air control unit 150 for automatic control or individual control of the height adjusting means 160 provided in the outer support 130, respectively. It is preferable to further include.

The air control unit 150 may correspond to the change in the weather conditions as described above, and more preferably adjust the angle of the entire surface of the surface floating platform through the buoyancy control of each individual outer support 130 so that the sun altitude and position The power generation efficiency may be increased by adjusting the angle of the solar focusing module installed.

According to a preferred embodiment, after the air control unit 150 determines the current altitude and position of the sun, calculates the angle at which the photovoltaic power generation efficiency is maximum, and adjusts the height adjusting means of each outer support unit 130. The horizontal angle of the floating surface platform can be adjusted.

For example, if it is calculated that the change to be inclined to the left by a predetermined angle, the air control unit 150 flows out the air of the two left outer support 130, the height of the two outer support 130 relatively right. You can adjust the horizontal angle to the left by lowering it.

The outer support 130 is preferably in the form of a hole in the water direction to adjust the buoyancy, or may be buoyancy control through some opening and closing in the form of a closed underwater direction.

In addition, the outer support 130 is preferably to adjust the buoyancy through the air and water, it may be configured to use a different type of gas and fluid corresponding to each and to adjust the buoyancy through this.

As such, the surface floating platform for solar power generation according to an embodiment of the present invention is provided with a height adjusting means 160 using buoyancy on the outer support 130 to partially distribute the entire weight distribution to the outside and the platform and the water surface The height of the fruit can be adjusted and the support stability can be easily secured regardless of changes in the weather environment such as a sudden change of water flow or wind condition.

8 is an exemplary view of a connection unit according to another embodiment of the present invention, Figure 9 is an illustration of the installation of the surface floating platform for solar power generation of the connection form according to another embodiment of the present invention.

Referring to FIG. 8, the floating plate 110 may further include a connection part 180 having one or more connection means for interconnection installation on the outside.

Referring to FIG. 9, the surface floating platform may be loosely arranged to be connected to a certain portion, but it is preferable to be firmly fixed to complete the unit after connection in a fixed connection manner.

At this time, the central post portion 120 is configured to be detachable so that only one surface floating platform 110 or a predetermined number of the surface floating platform maintains the central post portion 120 and the rest of the outer support portion 130. It is preferable to remove the central post portion 120 while maintaining the overall weight distribution to be stable.

In addition, the center post 120 is preferably longer than the length of the single surface floating platform in consideration of the total weight of the connected surface of the floating platform and use a heavier member.

As such, the surface floating surface for photovoltaic power generation according to an embodiment of the present invention is provided with one or more connecting means 180 for the interconnection installation on the outside of the floating plate of the installation area according to the installation environment or solar power capacity Easy to secure and change, it can greatly increase the convenience of installation.

The foregoing embodiments and advantages are merely exemplary and are not to be construed as limiting the present invention. However, the present invention is not limited to the above-described embodiments, and various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention. .

10: solar focus module
100: Sleep Injury Platform for Solar Power
110: floating plate
120: center post
130: outer support
140: underwater propulsion means
150: air control unit
160: height adjustment means
170: blocking unit
180: connection

Claims (8)

Floating plate capable of surface injury using buoyancy and the solar focusing module is installed;
A central post portion of a first length configured to have a center of gravity in the water in a direction perpendicular to the water surface from the lower center of the floating plate;
A plurality of outer supports of a second length configured in the water direction from the lower outer side of the floating plate to partially distribute the entire weight distribution outward; and
And a propulsion unit including one or more underwater propulsion means configured on the lower one side or the outer support of the floating plate for rotation and movement of the floating plate.
The method of claim 1,
The surface floating surface for a photovoltaic power generation further comprising a; blocking portion having one or more of a predetermined length of the barrier film formed between the outer support.
The method of claim 1, wherein the outer support is
It is provided with air and water in the interior space, by adjusting the amount of water through the injection, outflow of the air to distribute the total weight of the platform in the water and height adjustment means for adjusting the height of the floating plate and the water surface Sleep surface platform for photovoltaic power generation.
The method of claim 3,
And an air control unit for automatic control or individual control of the height adjustment means, respectively provided in the outer support unit.
The method of claim 1, wherein the floating plate
Surface floating platform for solar power, characterized in that one of the form of square, rectangular, circular, oval.
The method of claim 1,
And said first length being longer than said second length.
The method of claim 1, wherein the floating plate
Sleeping platform for photovoltaic power generation further comprises a; connecting portion having one or more connecting means for the interconnection installation.
The method of claim 7, wherein the central post portion
Sleep surface platform for solar power, characterized in that configured to be removable.

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