KR101832700B1 - Solar energy power generating apparatus - Google Patents

Abstract

The present invention relates to a photovoltaic power generation system using a ginseng field, which is as follows: a plurality of support shafts (2) are installed to be separated from each other by a predetermined distance on the ground to install a light concentration plate (50) for blocking sunlight so as to form a shade on a ginseng field; vertical support stands (12) for supporting the light concentration plate (50) are screw-coupled to the support shafts (2) in an upper part of the support shafts (2); horizontal support stands (18) are placed in the direction orthogonal to the vertical support stands (12) installed in the upper part of the support shafts (2) to be connected to the vertical support stands (12); and a rotational angle adjusting unit (36), which rotates the light concentration plate (50) to fit to an angle of sunlight changing according to seasons to form a shade for ginseng growing on the ground, is installed in an upper part of the vertical support stands (12). Since the photovoltaic power generation system is installed in a ginseng field, there is no need for construction in a mountain, such that the environment is protected and an initial cost for installation is reduced. Since the photovoltaic power generation system installed in the ginseng field is configured to be easily disassembled and installed, the system is able to easily move and install when the ginseng field is divided to grow ginseng, and accordingly, a user does not leave the ginseng field idle and grows ginseng continuously.

Description

{SOLAR ENERGY POWER GENERATING APPARATUS}

The present invention relates to a photovoltaic power generation apparatus, which can produce electricity using solar light while cultivating ginseng. By supplying water from underground water, reservoir and river water to ginseng field using self-developed electricity, The present invention relates to a photovoltaic device using a ginseng field capable of stably growing the same.

Ginseng, which is classified as a special crop, is a semi-ominous plant with a more ecological environment than other plants, and it is essential to make shade when growing ginseng because it hates direct sunlight.

In the conventional ginseng field, shade of natural materials such as rice straw, reed, and a net made of synthetic fiber was used to make shade in ginseng cultivation.

On the other hand, interest in environmentally friendly energy has increased and interest in photovoltaic power generation, which does not require the use of fossil fuel for power generation, has been widespread.

Conventionally, such solar power generation devices have been installed on a small scale for self-sufficiency of electric energy. Recently, a solar power generation device has been installed on a large scale in accordance with changes in conditions such as an increase in the price of crude oil, Selling.

In order to install such a large-scale solar power generation device, a large-scale site is required. To accomplish this, a solar power generation device is installed in a large space after securing a site by civil engineering work in a hill.

However, installing large-scale photovoltaic power generation equipment in the field through civil engineering works has recently been problematic due to the fact that it is possible to use a large space, have.

Recently, ginseng cultivation has been installed on the upper part of the plant, where a photovoltaic device is installed in the form of a thin film to produce electricity.

The ginseng cultivation is essentially to install a curtain to block the direct sunlight, and it is seen that the effect of producing the electricity by cultivating the ginseng as the solar panel is installed as a screen.

However, ginseng is difficult to cultivate continuously in one place. Therefore, after 4 years or 6 years of ginseng cultivation, it is necessary to cultivate in other field or fall off ginseng field for 1 ~ 2 years.

Furthermore, since ginseng has not been sold for 4 to 6 years after the first year of cultivation, there has been great difficulty for farmers to cultivate ginseng.

Particularly, in case of moving the field for cultivation of ginseng, it is necessary to transfer the installed photovoltaic devices together, so that it takes a long time to disassemble and reinstall the installed facilities.

Korean Patent Laid-Open Publication No. 10-2011-0012221, 'Ginseng Field Assembly Using Solar Panel and Any Combination'

Accordingly, an object of the present invention is to provide a solar power generation apparatus using a ginseng field that can generate electricity using sunlight without environmental destruction such as civil engineering work in a hill country in order to install a solar power generation apparatus .

The present invention also provides a photovoltaic power generation apparatus using a ginseng field in which a ginseng field is divided and cultivated so as not to distract the ground while cultivating ginseng, and a photovoltaic power generation apparatus installed in the ginseng field can be moved and installed.

The present invention according to the present invention is directed to a photovoltaic device using a ginseng field, in which a plurality of support shafts (2) are installed at predetermined intervals so that a condenser (50) for blocking sunlight can be installed in a ginseng field A vertical support 12 supporting the condenser plate 50 is screwed to the support shaft 2 and a plurality of vertical supports 12 provided on the support shaft 2 The vertical support 12 is connected to the horizontal support 18 by arranging the horizontal support 18 in a direction orthogonal to the vertical support 12. The upper part of the vertical support 12 is provided with a solar- And a rotation angle adjusting unit (36) for rotating the light condensing plate (50) so as to match the angle.

Since the solar power generation device is installed in the ginseng field, there is no need to work in the field, so the environment is protected without damaging the land. In addition, since it is installed as the shading plate of the ginseng field using the solar light collecting plate, The cost can be reduced.

In addition, it is easy to disassemble and install the photovoltaic device installed in the ginseng field, so that when the ginseng field is divided and cultivated, it can be easily installed in the past, and the ginseng field can be reproduced without making fun of the ginseng field.

In addition, it is effective to increase the income of farm households as the income from the photovoltaic power generation occurs during the period when ginseng sales income does not occur for 4 ~ 6 years after cultivation of ginseng.

FIG. 1 is a perspective view showing the installation structure of a photovoltaic device using a ginseng field according to an embodiment of the present invention, FIG.
FIG. 2 is a cross-sectional view showing the installation structure of a photovoltaic device using a ginseng field according to an embodiment of the present invention. FIG.
3 to 4 are views showing a configuration of a binding member according to a first embodiment of the present invention,
5 to 6 are views showing a configuration of a binding member according to a second embodiment of the present invention,
7 is a view showing a configuration of a binding member according to a third embodiment of the present invention,
Fig. 8 is a view showing an example of the installation of a photovoltaic device when the ginseng field is divided into quarters.

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

FIG. 1 is a perspective view showing an installation structure of a photovoltaic power generating apparatus using a ginseng field according to an embodiment of the present invention, and FIG. 2 is a detailed view of a solar cell power generating apparatus.

In the photovoltaic device using the ginseng field of the present invention, the condenser (50) is installed as a thin film for cultivation of ginseng to cultivate ginseng. Since the photovoltaic device is easily installed, A series can be done.

As a preferred embodiment of the present invention, as shown in FIG. 8, the ginseng field is divided into quarters and the ginseng field is divided into four quarters.

 Ginseng is cultivated in turn, and one area is culled (called "sunshine"). In the first year, ginseng is planted and grown, and then ginseng is harvested in the fourth or sixth year. .

At this time, since the curtain of the ginseng field is used as the light collecting plate (50) of the photovoltaic power generation apparatus, the photovoltaic power generation apparatus installed after the harvest of the 4-year-old or 6-year-old ginseng is also installed.

Generally, the lifetime of the condenser 50 of the photovoltaic power generation system is about 15 to 20 years. In order to obtain the ginseng cultivation profit and the electricity production profit by the photovoltaic power generation at the harvest time of the 4-year-old or 6-year- It is efficient to install photovoltaic devices in ginseng fields.

According to the present invention, since profitability can be enhanced by the production of ginseng and electricity by the photovoltaic power generation device, profitability is reduced when only the photovoltaic device is installed in a field where ginseng is not cultivated due to cessation.

It is expensive to install a solar power generation device, and when an expensive solar power generation device is installed, the period in which the revenue can be expected compared to the installation cost is not short, so the farmer hesitates.

Accordingly, in the present invention, by constructing a photovoltaic power generation device using ginseng field, it is possible to simplify the installation structure of the photovoltaic power generation device in order to secure the profit by the cultivation of ginseng and the profit by the photovoltaic power generation device, By installing photovoltaic devices easily, it will be possible to expect profit from cultivation of ginseng and solar power at the same time.

In addition, it is possible to supply ginseng fields with water by using groundwater, reservoirs and rivers using self-generated electricity, so that ginseng can be stably grown even in the event of drought.

For reference, when constructing a groundwater well in a ginseng field, it is preferable to apply the solar power generation device installed in the ginseng field before the installation.

If the photovoltaic power generation system is to be installed along with the serialization of the ginseng field, it is preferable to install the power generation apparatus in the middle of the four-divided ginseng plant.

The photovoltaic device according to the present invention includes a plurality of support shafts 2 disposed at a predetermined interval in the ground to provide a light collecting plate 50 and a vertical support And a vertical support table 18 is disposed in a direction orthogonal to the plurality of vertical support tables 12 provided on the support shaft 2 to fix the vertical support table 12 And a rotation angle adjusting unit 36 for rotating the condenser plate 50 in accordance with the angle of the sunlight varying with the season to form the shade of the ginseng cultivated on the ground is installed on the vertical support 12 do.

The support shaft 2 is formed in the form of a pile and is formed in the form of a screw so that the support shaft 2 is installed in the ground and the ground portion 6 is formed in the ground (8) for limiting the installation depth of the support shaft (4) and exposed to the ground so as to confirm the installation position of the support shaft (2) A screw portion 10 for screwing and fixing the support base 12 is formed.

As an embodiment of the present invention, the support shaft 2 is installed to be rotated by a screw formed on the supporting portion 4, and as another example, the support shaft 2 may be installed by a pressure applied by striking the upper portion.

The installation depth limiting jaw 8 restricts the installation depth so that the ground portion 6 can be exposed to the outside when the ground portion 4 is installed. The installation of the supporting section 4 is completed while the restricting jaw 8 is caught on the ground.

In the present invention, the support shaft 2 installed in the ground is left as it is in the previous installation of the solar power generation apparatus. In order to confirm the position of the support shaft 2 installed when the ginseng is again cultivated after the cauterization, The installation depth restricting jaw 8 is protruded outward so as not to be completely buried in the ground so that the previous installation position can be confirmed.

In addition, a separate cover (not shown) can be covered and protected to prevent the threaded portion 10 protruding to the ground when the ginseng field is closed from being worn or damaged.

The cover may be fastened to the threaded portion 10 and may be installed so as to be distinguishable from the outside in order to confirm the position of the support shaft 2. [

The threaded portion 10 has a threaded portion and a vertical support portion 12 installed on the upper portion of the threaded portion 10. The threaded portion 10 and the lower fastening portion 12 formed on the inner lower portion of the vertical support 12, 16 are coupled and fixed.

In the present invention, in installing the photovoltaic power generation device, the structures for installing the condenser plate 50 are installed in a screw fastening structure so that they can be easily installed and disassembled without being fixed by welding.

The vertical support 12 includes an upper coupling part 14 for installing a rotation angle adjusting part 36 for adjusting the angle of the condenser 50 installed on the upper part of the vertical support 12, A lower coupling portion 16 is formed which is engaged with the screw portion 10 formed in the ground portion 6 of the main body 1.

In the present invention, a horizontal support 18 for horizontally interconnecting a plurality of vertical supports 12 installed on the support shaft 2 is provided, and the vertical support 12 and the horizontal support 18 intersect each other And the position is fixed by means of the coupling 20.

Figs. 3 to 4 are diagrams for explaining the configuration of the binding port 20 according to the first embodiment of the present invention. Fig.

The binding means 20 of the present invention has binding pieces 22a and 22b which are joined at left and right sides to fix the vertical supporting rods 12 and the horizontal supporting rods 18 that intersect with each other, 22b are formed with vertical and horizontal coupling grooves 24a and 24b for receiving the vertical support 12 and the horizontal support 18 and the vertical support 12 and the horizontal support 18 are engaged with each other, The fastening bolts 28 are fastened through the fastening holes 26 formed in the fastening pieces 22a and 22b so as to fix the left and right fastening pieces 22a and 22b .

In the embodiment of the present invention, a nut 30 for fixing a plurality of binding pieces 22a and 22b at the time of fastening of the fastening bolts 28 is provided inside the binding pieces 22a and 22b, ) 22b.

3, a nut 30 for coupling the binding pieces 22a, 22b with the fastening bolts 28 is integrally inserted into the binding pieces 22a, 22b, The coupling pieces 22a and 22b are naturally coupled to the vertical support 12 and the horizontal support 18 without engaging the nut 30 together with the fastening bolts 28. [ So that it can be firmly fixed.

Figs. 5 to 6 are views for explaining the configuration of the binding port 20 according to the second embodiment of the present invention. Fig.

The binding member 20 of the present invention has a plurality of binding members 50a, 50b and 50c for fixing the vertical support 12 and the horizontal support 18 intersecting with each other, 50b and 50c are vertically and horizontally formed in the shape of hemispherical coupling grooves 52a and 52b for fixing the vertical support 12 and the horizontal support 18 to one side of the coupling piece 50a, The fastening bolts 56 are fastened to the fastening holes 54 in a state in which the vertical supports 12 and the horizontal supports 18 are fixed by the engagement of the fastening grooves 52a and 52b formed in the fastening holes 50b and 50c, The binding pieces 50a, 50b and 50c are fixed.

In one embodiment, three binding pieces 50a, 50b and 50c are provided for binding the vertical support 12 and the horizontal support 18, and the first binding piece 50a is provided with horizontal binding grooves 52a And the second binding piece 50b is formed with a horizontal binding groove 52a for binding the horizontal supporting table 18 and a vertical binding groove 52a for binding the vertical supporting table 12, A vertical binding groove 52b for binding the vertical support 12 is formed in the third binding piece 50c so as to face the vertical binding groove 52b of the second binding piece 50b do.

That is to say, the vertical support 12 and the horizontal support 18 are coupled with each other by the coupling of the plurality of coupling pieces 50a, 50b, 50c to form the hemispherical horizontal coupling groove 52a and the vertical coupling groove 52b, 50b and 50c and then fastening the fastening bolts 56 through the fastening holes 54 formed at one side of the fastening pieces 50a, 50b, 50c, .

In the embodiment of the present invention, a nut 58 for fixing a plurality of binding pieces 50a, 50b and 50c is fixed to the inside of the binding pieces 50a, 50b and 50c when the fastening bolts 56 are fastened. Can be formed integrally with the binding pieces 50a, 50b and 50c.

5, the second coupling piece 50b and the third coupling piece 50c are each provided with a nut 58 for coupling the coupling pieces 50a, 50b, 50c by the coupling bolts 56 The coupling pieces 50a, 50b, and 50c can be naturally inserted into the coupling pieces 50a, 50b, 50c without having to tighten the separate nuts 58 together with the coupling bolts 56 when the coupling pieces 50a, The vertical support 12 and the horizontal support 18 can be firmly fixed.

7 is a view showing a configuration of a binding port 20 according to a third embodiment of the present invention.

The binding means 20 of the present invention includes a vertical groove portion 60 for fitting the vertical support 12 and the horizontal support 18 to each other to engage the vertical support 12 and the horizontal support 18, And the horizontal support portion 12 and the horizontal support portion 18 are fitted to the vertical groove portion 60 and the horizontal groove portion 62 so as to fix both ends thereof with the fastening bolts 66. [ (64).

Each of the horizontal and vertical grooves 62 and 60 is opened at one side to sandwich the vertical and horizontal supports 12 and 18. The vertical grooves 60 are fitted with vertical supports 12, The horizontal support 18 is inserted into the fixing part 62 and the fixing part 64 formed at both ends of the binding part 20 in a state in which the vertical and horizontal support parts 12 and 18 are interposed by the binding part 20, Is fastened with a fastening bolt (66) to fix the vertical and horizontal supports (12) (18) while tightening the open side.

Referring to FIG. 2 again, a rotation angle adjusting unit 36 for adjusting the angle of the light condensing plate 50 is formed on the vertical support 12 by forming an upper coupling unit 14 thereon.

The rotation angle adjusting unit 36 is provided with a connection shaft 38 fixed to the vertical support 12 and a hinge shaft 42 hinge-connected to the connection shaft 38, 38 is provided with a fixing shaft 44 for supporting the condenser plate 50 and a shaft rod 46 for adjusting the angles of the condenser plate 50 at the other side.

A threaded portion 40 is formed at a lower portion of the connection shaft 38 so as to be screwed with the upper coupling portion 14 of the vertical support 12. A hinge shaft 42 is provided at the upper portion of the coupling shaft 38 by a hinge connection, (50).

As the angle of incidence of the sun changes with time or seasonal changes, it is preferable to adjust the angle of the condenser 50 so as to be perpendicular to the incidence angle of the sun for optimal formation efficiency of the shade of the ginseng and the condenser 50.

The angle of the condensing plate 50 is adjusted by adjusting the length of the shaft rod 46 by providing the cylinder 48 on one side of the shaft rod 46 that supports the condenser plate 50.

The shaft rod 46 provided with the cylinder 48 is installed so as to be adjustable in length while the condenser plate 50 is supported by the fixing shaft 44 provided on the connection shaft 38. When the angle of the condenser plate 50 is adjusted, The shaft rod 46 is received in the cylinder 48 or protruded outward by the shaft 48 to adjust the light condensing plate 50 to be lifted or lowered to match the incidence angle of the sun.

The angle adjustment of the light collecting plate (50) affects the efficiency of solar power generation as well as the ginseng cultivated in the lower part. Direct sunlight may be seen on the ginseng due to the change of incidence angle of the sun when ginseng cultivated to avoid direct sunlight The angle of the condenser plate 50 is adjusted according to the situation to form the shade.

Adjusting the angle of the condenser plate 50 by adjusting the length of the shaft rod 46 by the cylinder 48 can automatically operate by preset operation control according to the change of time or season, It is preferable to collectively control the photovoltaic devices.

In the present invention, the hinge shaft 42, the fixing shaft 44, and the shaft rod 46 supporting the condenser plate 50 may be hinged so that the angle of the condenser plate 50 can be easily adjusted.

In the present invention, a pump device (not shown) for supplying water to the ginseng field at the time of drought can be installed.

The pump device is capable of supplying water to the whole ginseng field like a sprinkler, and it can help the growth of ginseng in drought condition by using ground water or bringing water such as reservoir and river to the ginseng field There is an effect.

At this time, the electric power of the pump device can be used to stably cultivate ginseng by using electricity generated by the photovoltaic power generation device or using relatively cheap agricultural electricity at a low cost.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of claims and equivalents thereof.

(2) - Support shaft (4) - Central part
(6) - above ground (8) - installation depth limit jaw
(10) - Screw (12) - Vertical support
(14) - upper fastening part (16) - lower fastening part
(18) - horizontal support (20a) - coupling
(22a) (22b) - binding pieces (24a) (24b) - binding groove
(26) - fastening hole (28) - fastening bolt
(30) -nut (36) -rotation angle adjuster
(38) - connecting shaft (40) - thread
(42) - hinge shaft (44) - fixed shaft
(46) - Axle (48) - Cylinder
(50a) 50b (50c) -bonding pieces (52a) 52b -binding groove
(54) - fastening hole (56) - fastening bolt
(58) - Nut (60) - Vertical groove
(62) - transverse groove (64) - fixing portion
(66) - fastening bolt (100) - condensing plate

Claims (9)

In a photovoltaic device using a ginseng field,
A plurality of support shafts (2) are installed at predetermined intervals in the ground so that a light collecting plate (50) for blocking sunlight can be installed in a ginseng field to form a shade,
The supporting shaft 2 is provided with a supporting part 4 which is formed by screwing and installed in the ground by rotation, A ground portion 6 formed of an installation depth restricting jaw 8 exposed to the ground to confirm the installation depth limiting jaw 8 and a screw portion 10 formed at the upper portion of the installation depth restricting jaw 8 to engage the vertical support 12; And,
A vertical support 12 for supporting the condenser 50 is installed on the upper portion of the support shaft 2 by screwing the support shaft 2 with the support shaft 12. The vertical support 12 is installed on the upper side of the condenser 50 An upper coupling part 14 for installing a rotation angle adjusting part 36 for adjusting an angle and a lower coupling part 16 for coupling with a screw part 10 of the support shaft 2 are formed at the lower part,
A horizontal support 18 is disposed in a direction orthogonal to a plurality of vertical supports 12 provided on the support shaft 2 so as to be fixed by a coupling 20,
The binding member 20 has rectangular binding members 22a and 22b which are joined at left and right sides to fix the vertical support 12 and the horizontal support 18 which intersect with each other. A nut 30 for fixing the left and right binding pieces 22a and 22b is fastened to the binding pieces 22a and 22b on the inner side of the fastening bolts 22a and 22b,
Horizontal coupling grooves 24a and 24b are formed at one side of the coupling pieces 22a and 22b for receiving the vertical and horizontal support rods 12 and 18, The fastening bolts 28 are fastened through the fastening holes 26 formed in the fastening pieces 22a and 22b with the horizontal support 18 and the fastening pieces 24a and 24b fitted in the fastening pieces 22a and 22b, 22a and 22b,
A rotation angle adjusting unit 36 for rotating the light collecting plate 50 in accordance with an angle of sunlight varying with the season to form a shade of ginseng to be grown on the ground is installed on the vertical support 12, The angle adjusting unit 36 includes a connection shaft 38 fixed to the vertical support 12 by a screw connection and a hinge shaft 42 hinged to the connection shaft 38 and rotating together with the condenser plate 50 A fixing shaft 44 for supporting the condenser plate 50 is provided at one side of the connection shaft 38 and a shaft rod 46 for adjusting the angle of the condenser plate 50 by the cylinder 48 is provided at the other side Wherein the solar cell is a solar cell.
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