KR101562916B1 - Solar generator for water - Google Patents

Abstract

The present invention relates to a photovoltaic generator for water capable of receiving photovoltaic energy and converting into electric energy while being installed to be floated above the surface of water. According to the present invention, the angle of installing a photovoltaic generating part is changed to efficiently absorb solar light whose irradiation angle is to be different according to a seasonal change in the altitude of the sun in a vertical direction for all seasons, and the position of only a supporting plate of the photovoltaic generator for water is quickly and conveniently adjusted by using a simple structure without individually adjusting the position of each of photovoltaic generating parts with labour. Therefore, as the angles of a number of photovoltaic generating parts arranged in the upper side are adjusted at the same time, workability can be efficiently improved according to adjustment of a photovoltaic generating part position. Moreover, as solar light is efficiently received always regardless of irradiation angle of solar light according to a seasonal change, generation productivity can be improved more.

Description

[0001] Solar generator for water [0002]

The present invention relates to a photovoltaic power generation facility for receiving solar energy in a floating state on a water surface and converting the solar energy into electrical energy. More particularly, the present invention relates to a solar power generation facility in which solar cell modules are arranged, And to improve power generation productivity according to photovoltaic power by keeping the absorption efficiency of sunlight irradiated by varying along with it at the best conditions at all times.

Generation systems such as hydropower, thermal power, and nuclear power can be exemplified as general power generation systems for generating electricity. The power generation method of the above example requires relatively large power generation facilities, In addition to the problem of remediation, pollution of the natural environment has been raised, and there is a growing interest in a natural-friendly power generation system that can be used indefinitely without pollution entering the present.

Solar energy, solar power, solar power, solar power, solar power, solar power, solar power, solar power, solar power, When the light is irradiated, electricity is generated by the photovoltaic power, and the battery is charged through the electricity supplied from the plurality of solar cell modules and supplied to the necessary parts.

Although the above-mentioned photovoltaic power generation facility is popular as a natural energy-friendly alternative energy, in order to produce enough electricity to be available, it is necessary to secure a large flat land inevitably and install it on a large scale, In order to solve these problems, it has been recently proposed to use water as a natural environment such as a lake or a sea, or as a water-based solution using an artificial environment such as a reservoir Solar power generation facilities are being proposed.

Generally, a photovoltaic power generation facility (patent registration No. 1162473) is provided with a support plate 10 on which various power generation structures are mounted in a floating state on a water surface by a buoyant body 11 installed on the lower side as shown in FIG. 1 And a solar power generating unit 13 connected to the column 12 provided on the upper surface of the support plate and having a solar cell module (not shown) for power generation arranged therein, And a support rope (15) for fixing the support plate by being guided by the pulley, wherein the one end of the support rope is fixed to the underwater floor Is connected to the chain anchor (16), and the other side end is connected to the weight holding weight (17).

However, the solar photovoltaic power generation facility having the above structure absorbs the sunlight emitted from the solar power generation unit in a state where it is installed on the water surface, thereby producing electricity according to the photovoltaic power of the solar cell module, The stability of installation of the support plate can be improved through the support rope which always maintains the stable tension,

The solar power generation unit 13 on the upper side of the support plate is fixed while maintaining a constant angle throughout the season so that the absorption rate of the sunlight diverging due to the change in angle of sunlight irradiation according to the altitude difference of the sun by the season varies depending on the season , The problem of deteriorating the productivity of solar power generation was exposed.

Referring to FIG. 2, the altitude of the sun and the change of the angle of sunlight irradiation will be described in more detail.

According to Anseong, which is the latitude of 37 degrees in Korea, the altitude of the southern part of the sun at spring equinox (spring) and autumn equinox (autumn season) is 53 degrees (sun rises from Jeongdong side to emotion side) It is 29.5 degrees (drawn from the southeast and loaded to the southwest) during winter (winter time).

As described above, the angle of sunlight changes with the change of the altitude of the sun by the season, and it is known that the efficiency of the photovoltaic power generation unit is influenced by how efficiently the divergent sunlight is absorbed from the vertical direction The conventional photovoltaic solar power generation facility can not cope with the change of the altitude and the angle of the sun which changes according to the seasonal change of the solar power generation part, The photovoltaic power generation efficiency (photovoltaic power generation efficiency) was inevitably lowered because the photovoltaic power generation system could not absorb the efficiency in the photovoltaic power generation system,

SUMMARY OF THE INVENTION The present invention has been made in order to solve the conventional problems as described above and it is an object of the present invention to provide a solar power generating apparatus and a solar power generating apparatus, So that the efficiency of solar power generation can be further improved.

According to an aspect of the present invention, there is provided a solar power generator comprising: a support plate having a buoyant body on a lower side and a column on an upper surface thereof, the sunlight generating unit being disposed on the support plate; A supporting rope which is guided in a pulley so as to fix the supporting plate and which connects the one end of the supporting rope to the weight chain anchor provided on the water floor and the other end of which is connected to a weight for weight maintenance, In power generation facilities,

A pair of rails opposed to each other on both sides of the slit hole are provided, a rail sliding on both sides of the rail is formed with a pair of tongues, And a center moving weight connected to the supporting plate to move the center of gravity of the supporting plate in both lateral directions.

In order to efficiently absorb sunlight having a different irradiation angle according to a change in altitude of the sun during the season from the vertical direction throughout the season, the angle of the solar power generator is adjusted by individually adjusting the position of the solar power generator It is possible to quickly and easily adjust the position of the support plate of the solar photovoltaic power generation facility by simply arranging the plurality of solar power generation units arranged on the upper side thereof at the same time so that the workability due to the adjustment of the position of the solar power generation unit can be efficiently And it is possible to efficiently receive the sunlight at all times regardless of the angle of sunlight irradiation according to the seasonal change, thereby improving the productivity of the power generation.

FIG. 1 is a schematic view showing the overall construction of a photovoltaic power generation facility according to the prior art
2 is an exemplary diagram for explaining the altitude change of the sun by the season
Fig. 3 is a diagram showing the entire construction of a solar photovoltaic power generation facility according to the present invention
Fig. 4 is an exploded perspective view
5 is a cross-sectional view taken along line A-A '
6 is a flowchart illustrating an operation according to an embodiment of the present invention.
7 is an exemplary diagram for explaining another embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is an exploded perspective view of the main part according to the present invention, and FIG. 5 is a cross-sectional view taken along the line A-A 'in FIG.

As shown in FIG. 1, the solar photovoltaic power generation plant A according to the present invention is broadly divided into a support plate 100 on which water is floated and components necessary for power generation are mounted, A support rope (150) guided by the sheave to fix the support plate, an anchor (160) installed on the underwater floor and connected to one end of the support rope, And a weight 170 for retaining the tension after the connection is established.

The support plate 100 having the above structure is provided with a buoyant body 110 formed with a synthetic resin material downward as a bolting or a rope and the upper side is provided with a solar cell module The photovoltaic unit 130 is fixedly disposed, and a slit hole 101 having a rectangular shape is formed at the center.

In addition, the pair of opposing rails 300 are mounted on both sides of the support plate slit hole by using fixing means such as bolt or welding, and the rail 300 has a slant surface 302 And a separation preventing part 304. A plurality of fastening holes 301 for fastening the fixing bolts are formed at regular intervals along the longitudinal direction.

The rails in the above example may be formed of a rod such as a steel bar according to another embodiment. Specifically, the rails may include a vertical rod 306 fixed to the upper surface of the support plate and a parallel rod 305 fastened to the upper end of the vertical rod .

Meanwhile, the rails 230, which are placed on the rails and slid in both lateral directions, form a tongue 230, and the tongue 230 has a tilted moving part 231 slidably moved on the pair of rails, And a coupling ring 232 to be coupled to the center moving weight 200 to be described later is projected to the lower center side.

The connecting rod 233 having the connecting ring 235 is formed on the lower side of the connecting rod 233. The connecting rod 233 is formed on both sides of the connecting rod in a hemispherical shape And the caster 234 of the caster 234 is rotated.

In addition, in the case of the rail, the central moving weight 200 for moving the center of gravity of the supporting plate in both lateral directions is fastened, and the rail is fastened to the connecting link 232 at the upper side of the center moving weight, (220) is horizontally formed in the body of the center moving weight (200) so as to minimize resistance of water flow.

In addition, according to a preferred embodiment of the present invention, the stopper 310 further includes a stopper 310 for stopping the rail moving on the rail so that the rail does not move further in the moved position. A bolt hole 310a communicating with the fastening hole 301 of the rail is formed at the center and is detachably mounted on the rail as a fixing bolt 303. [

The buoyant body 110, the pulley 140 and the support rope 150 are installed on the upper part of the column 120, The connecting and fixing processes of the photovoltaic power generation unit 130, the weight 170, and the anchor 160 correspond to conventional components, and thus a detailed description thereof will be omitted.

As shown in FIGS. 4 to 5, a pair of rails 300 are disposed on the upper side of a support plate 100 having a rectangular slit hole 101 formed at its center so as to face each other, And at least two fixing bolts 303 are fastened to the fastening holes 301 formed in the rails to complete the installation of the rails on the upper side of the supporting plate.

Thereafter, the rail moving on the upper surface of the pair of opposing rails 300 slidingly moves the rail 230, and the center moving weight 200 for controlling the angle of installation by moving the support plate in both directions, The rail is positioned on the upper side of the slit hole 101 of the support plate and the center moving weight 200 is positioned on the lower side of the slit hole, The rail of the above construction is additionally coupled with the center of gravity by connecting the linking ring 232 to the central movement weight upper end ring 210. At this time, And is placed on the inner surface 302.

Here, the upper ring 210 of the center moving weight 200 may be detachably coupled to the upper ring 210 to be replaced with a center moving weight of various types and types.

As shown in FIG. 7, the rail may be formed of a bar-like member such as a steel bar according to another embodiment. The rail may be positioned on both sides of the support plate slit hole 101 and welded or bolted to the vertical bar body 306, And a caster 234 having a hemispherical shape in which the parallel bars 305 are connected and fixed in a horizontal state and the corresponding coils 230 corresponding to the connecting bars 233 roll on both sides of the connecting bars 233 are disposed, It is placed on the top of the parallel rod and moves in the cloud.

The bolt hole 310a of the stopper is inserted into the plurality of fastening holes 301 formed in the rail by the stopper 310. [ The bolts are fastened to the selected fastening holes, and then the moved rail is caught by the stopper 310 and stops moving without any movement.

The following description is to explain the position adjustment process of the photovoltaic power generation equipment according to the illustrated embodiment, and it will be described based on the degree of latitude corresponding to the latitude of 37 degrees in the Korean region.

For example, in the summer (summer), the sun floating in the Anseong area comes to the northwest from the northeast, and the altitude of the southern tip of the sun is 76.5 degrees, Is moved to the center position of the slit so that the center moving weight 200 moving together is maintained at the center of the support plate and the center of gravity of the support plate is maintained evenly so as to maintain the level of the support plate floating on the water surface.

When the solar power generator 130 mounted on the upper end of the support plate is set and fixed in an inclined state so as to face the vertical direction in the middle of the middle of the 76.5 degrees in the manufacturing process, So that the power generation part absorbs efficiently in the vertical direction and is generated by the photovoltaic power.

Meanwhile, as shown in FIG. 6, the altitude of the sun floating in the Anseong area during the spring equinox (spring season) and the autumn season (autumn season) is 53 degrees, and the angle of sunlight will change along with the change of the altitude of the sun. The rail connected to the center moving weight 200 slides in one direction from above the pair of rails 300 to move the center of gravity of the support plate in the moving direction, The sunlight power generation unit 130 is adjusted so as to be positioned vertically to the south highway of 53 degrees so that the solar power generation unit is adjusted simultaneously with the movement of the support plate 100 at the equinox and the equinox, The power generation efficiency can be improved.

At this time, the moving rail is kept stopped by the stopper 310, so that the sunlight is adjusted efficiently by the photovoltaic power generation unit positioned during the equinox and the equinox, unless the operator re- It is accepted.

In addition, the altitude at which the sun is floating in the Anseong area during the winter season (winter time) is 29.5 degrees. In this case, the center of gravity of the support plate 100 is moved by the same process as the above- It is possible to improve the efficiency of solar photovoltaic power generation facilities throughout the seasons by improving the absorption efficiency of sunlight according to the position adjustment.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention as defined by the appended claims. Examples should be understood.

A: Commercial photovoltaic power generation facility, 100: Support plate,
200: center shift weight, 210: loop,
220: Dowel hole, 230:
231: moving part, 232: connecting link,
300: rail, 301: fastening ball,
302: face to face, 310: stopper,

Claims (7)

A supporting plate 100 on which a buoyant body 110 is installed on a lower side and a column 120 is connected on an upper surface of the supporting plate 100 and a solar power generating unit 130 is disposed; A support rope (150) for guiding the support plate to be fixed by being guided in the pulley, and a weight chain anchor (160) provided on the underwater floor at one side of the support rope, In the photovoltaic power generation equipment connected to the tension holding weight 170,
A slit hole 101 is formed at the center of the support plate 100 and a pair of rails 300 opposed to both sides of the slit are provided. And a center moving weight (200) for forming a tongue (230) and connected to the rail to move the center of gravity of the support plate in both directions.
The method according to claim 1,
Wherein the rail (300) comprises a bolt fastening hole (301) formed at a predetermined interval from a slanting surface (302) and a slanting preventing part (304).
The method according to claim 1,
Wherein the rail (300) comprises a parallel rod (305) having a long length and a vertical rod (306) supporting the parallel rod (305).
The method according to claim 1,
The tongue 230 of the rail forms an inclined moving part 231 slidably moved on the upper surface of the pair of rails and the tongue 232 for locking the tongue 230 is projected to the lower center Wherein the photovoltaic power generation system is a solar photovoltaic power generation facility.
The method according to claim 1,
And a connecting rod 233 to which the connecting ring 235 is attached is formed on the lower side of the rail 230. The connecting rod 234 is coupled to both sides of the connecting rod so that a hemispherical caster 234 rotates. Photovoltaic power generation facilities.
3. The method according to any one of claims 1 to 3,
Further comprising a stopper (310) for stopping the tongue (230) when the rail is coupled to the rail (300) so as to be removably attached to the rail (300).
The method according to claim 1,
Wherein the center moving weight (200) is formed in a horizontal state in the body so as to minimize resistance of water flow.

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