KR20160101843A - Using the ridge and the furrow Solar power and how to Combat Desertification - Google Patents

Abstract

The present invention provides a method to perform sunlight generation and prevent desertification by using ridges and furrows, to make ridges and furrows in paddies and fields, cover vinyl film on both the ridges and the furrows, and fix a photovoltaic module means on the furrows to reduce plant construction period, costs for a means of support, etc. According to the present invention, farming is performed in the paddies and the fields during a farming season, and sunlight generation is performed in parallel during an off-season, so the sunlight generation is performed while performing farming which is an original purpose of the paddies and the fields, civilization construction and concrete placement for fixing a support of the stand in the paddies and the fields are not performed, and the paddies and the fields are not occupied. The method comprises: a step of making ridges and furrows in a desert; a step of covering vinyl film on both the ridges and the furrows; and a step of layering the soil means to enable plants to put down roots and live on the ridges, and installing a photovoltaic module means on the furrows. Thus, sunlight generation is performed, and the plants implanted in the furrows are able to live by receiving moisture of dewdrops which are collected from the ridges and are flowing in the furrows. The sunlight is hidden by the ridges, so much sunlight is not received in the furrows, and thereby the plants are not dried. Photovoltaic plants are sequentially constructed in the direction of wind blowing in a desert and operated there. Moreover, desertification is stopped, yellow sand is prevented, and plants can be raised, so the desert can be afforested in the long term.

Description

[Background Art] [0002] Solar power generation and desertification prevention methods using ridges and furrows [0003] {Using the ridge and the furrow solar power and how to combat desertification}

The present invention relates to a solar power generation method.

Conventional photovoltaic power plants consist of solar cell module made of metal and solar cell module arranged in base.

Among the ways to reduce the solar power generation cost, there are a method of increasing the efficiency of the solar cell and a method of lowering the construction cost of the solar power plant.

Each country is planting trees in the desert to prevent desertification,

We are trying to build a solar power plant in the desert to get energy.

Patent Document 1: Title of the invention: Solar photovoltaic module for desert and tropical area, and manufacturing process thereof, Application No. 10-2012-0070796, filed on June 29, 2012

Patent Document 2: Title of invention: Apparatus for cultivating plants in intertidal zone and desert region, Application No. 10-2009-0041454, filed on May 13, 2009

[Patent Document 3] Name of invention: Desert solar module and its manufacturing method, Application No. 10-2012-0071423, filed on June 29, 2012

[Patent Document 4] Title of invention: Artificial soil composition for preventing desertification and planting method for preventing desertification using the same, Application No. 10-2012-0154029, filed on December 27, 2012

[Patent Document 5] Title of the invention: Desertification prevention system, application No. 10-2010-0114556, filed on November 17, 2010

[Patent Literature 6] Name of invention: method for preventing desertification, patent application No. 10-2012-0013906, filed on February 10, 2012

[Patent Literature 7] Title of the invention: Method for preparing planting material for prevention of desertification, application No. 10-2012-0013907, filed on February 10, 2012

[Patent Document 8] Title of the invention: Sealed solar cell module: Application No. 10-2015-0003324, filed on January 09, 2015

[Patent Document 9] Name of invention: Photovoltaic module and method to be installed in a rice field, Application No.: 10-2015-0027875, Date of application: Feb. 27, 2015

The problem to be solved in the present invention is to construct a solar power plant in a rice paddy field and a desert at a minimum cost.

The problem to be solved in the present invention is to construct a solar power plant in the desert and to prevent desertification while growing and to grow plants in the desert.

As a solution to the above problem, the construction of a photovoltaic power plant is not to use a conventional concrete support, but to use a metal support and a bracket.

In the installation place of the photovoltaic module, make lanterns and furrows so that the lanterns and the furrows are seen so that the lanterns and the furrows are laid on the installation site of the photovoltaic modules, and a metal pipe is laid on the furrows, Solar power plants were constructed by installing module means.

In the desert, we make ridges and furrows to look at the Jeonnam-dong in the desert, put vinyl and furrows in both the furrows and groves, and put the means that the plants such as sand, And the solar cell module means was installed without any means.

It is possible to reduce the construction cost of the power plant by the cost of the installation and the shortening of the period by fixing the photovoltaic module means after the veneer is covered with the vinyl and the veneer is made in the rice field and the field and the agriculture iron We can do farming, horticulture, solar power generation, rice farming, farming,

In the desert, we make ridges and furrows, cover all the gorangs with vinyl, then lay the soil on the furrows where the plants can roots and live, and install solar photovoltaic modules on the ridges.

The dew is gathered in the ditch and flows into the ditch, and the plant that is planted in the ditch can live with the supply of water. Because of the ditch, the sunlight is blocked and the sunlight does not come into the trough, so the plant planted in the trough is not dried.

1 is a partial perspective view of a paddle 40 and a ridge 42 formed on a paddy 20 and B is a paddle 40 and a padding 42 which are connected to a pipe 48 Some observers fixed by pressing plastic.
2C is a partial perspective view showing the solar cell module 100 installed on the ridge 42 of the rice paddy 20 and D is a view showing the solar cell module 100 installed on the ridge 42 of the desert 30 Some perspective.
3E is an explanatory view in which the module fixing frame 50 is fixed to the ridge 42 and the solar cell module 100 is fixed to the module fixing frame 50
F is a view for explaining the use of the module fixing frame 55 instead of the module fixing frame 50;
G, H, K, and L in Fig. 4 are views for explaining the widths of the trough 40 and the trough 42. Fig.
5 is a view showing the upper flat 44 on the valleys 40 and P is a part of the solar cell module 100 on the ridges 47 and the ridges 47 and 47 on the mountain of the desert. Fig.
6 is a plan view of the thrust frame 70,
R is a side view of the one-column power plant 120;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a method of making a paddy (42) and a paddle (40) in a paddy field or a paddy field, covering both the paddy (42) and the furrow (40) with vinyl or selectively applying vinyl on the paddy (42) ) Is a method of generating solar power by installing a solar module,

When applying to the desert, make ridges (42) and valleys (40) in the desert, put vinyl on both the ridges (42) and the valleys (40) or cover the ridges (42) ) To install solar photovoltaic modules to generate solar power, and plants (40) to plant and grow green spaces.

If the ridges 42 and the ridges 42 are close to each other, if the ridges 40 are small, dew may form on both ridges 42 and flow to the ridges 40 to supply some water to the plants in the ridges 40 have.

In the way of putting vinyl in the desert (42) and the gorang (40), the solar power generation has the merit of limiting the sand movement even when the wind is blowing, .

 In the nomadic desert, grazing plants can be planted between Rye (42) and Ridge (42) to form a plant for planting the sheep.

In other words, in the structure where desertification is proceeding due to the life of nomadic herds growing in the desert, the nomadic people can profit from solar power generation and can prevent desertification by constructing farming style and living together.

In the present invention, the valleys (40) indicate between the towering ridges (42) and the ridges (42).

Ridge (42) refers to the high trough between valleys (40) and valleys (40).

In paddy fields, plowing means, tractor rotary means to dig the grooves of the ground to make a trough (40), and to build a trough (42) of troughs from the time of making the trough (40).

The depth of the trough 40 and the height of the trough 42 are relative.

That is, if the depth of the valleys 40 is not deep, the height of the ridges 42 is relatively low

If the depth of the valleys 40 is deep, the height of the ridges 42 is relatively high.

Or if the height of the ridges 42 is low, the depth of the valleys 40 is not relatively deep

When the height of the ridge 42 is high, the depth of the valleys 40 is relatively deep.

The upper faucet 43 of the ridge 42 is naturally dented in the round or rounded shape with less area because the soil or the sand is not hesitant, and it is hard to form a sharp-pointed shape.

The upper flat 44 of the ridge 42 can be made flat and wide to make a path for people to walk on, or to plant small plants to make greenery.

It should be noted that if the upper flat 44 of the ridge 42 is wide, the vehicle can be carried around.

The valleys (40), which are formed between the ridges (42) and the ridges (42), are narrow and rounded rather than flat.

However, if the width between the ridges (42) and the ridges (42) is wide, the ridges (40) constituted of wide flat ridges can be planted, making roads for people to travel, have.

We can also build houses that people can live in, or make us where animals can live.

When the rains (40) of the rice paddy field are exposed to heavy rains in the rainy season, the water is collected by the furrow (40), and it is excavated by the waterway to serve as an excuse to prevent damage to the crops planted in the paddy field.

The use of conventional (42) in paddy field is to prevent vinyl grass from growing and controlling temperature.

Rice (42), which cultivates crops in rice fields and fields, is semi-circular in shape, flat and wide, and is made in a different shape depending on the farming crops.

In the present invention, the ridge made for the purpose of installing the solar light is formed into a flat shape or a semi-circular shape, and the bottom surface and the triangular shape, which are advantageous for solar power generation.

If you make plows (40) and plows (42) with plows in rice paddies and fields, the trenches of the plow (42) tend to be made rough with clay.

However, if you hit the rotary with the tractor, you can break the soil and then make the plow (40) and the plow (42) with the plow, and the plow (42)

Alternatively, the tractor can be used to form the blades 40 and blades 42 in the form of blades 40 and blades 42 by rotary work.

Or rotary work with a tractor is carried out by pulling or dugging a forming plate having the shape of a trough 40 and a trough 42 while collecting the soil in the form of a trough 40 and a trough 42, (42).

In the desert, tractors can be made larger and used.

Heavy equipment (40) and ridge (42) can be made.

In the desert, it is advantageous to make professional trenches (40) and trenches (42) using specialized special equipment.

In other words, a heavy equipment (40) and a ridge (42) of a desired size can be made by sanding or sanding with sand as a heavy equipment for transferring sand.

Using special heavy equipment suitable for large-sized desert, it is possible to increase the efficiency of making gorge (40) and gravel (42).

The shape, spacing, width, angle, and size of the trough 40 and the trough 42 can be selected by the installer.

The one side of the ridge (42) is positioned in the direction of the north-south direction with the longitudinal direction of the valleys (40) and the ridges (42) facing the east direction where the sea rises and the west direction where the sea rises, Another backside will not be sunny.

In the present invention, a vinyl means is used for the valleys (40) and the ridges (42).

Put the vinyl in the gravel (40) and the lane (42) in the rice paddy field and press the vinyl in the fender (40) by means of the pipe (48).

Alternatively, it is possible to use vinyl to press the vinyl in accordance with the shape of the trough 40 by pressing the vinyl with a dome unit made by folding a metal in a semicircular shape on the dash of the pipe 48, and to use the water gathered in the trough as a groove unit .

In the desert, put vinyl in the gorges (40) and the ridges (42), and press the vinyl in the gorund (40) with the sand as a blending soil for growing plants.

When the gravel 40 and the ridge 42 are covered with vinyl, they can withstand the weathering effect, so that the shape of the gravel 40 and the ridge 42 can be maintained for a long time.

That is, the form of the valleys 40 and the valleys 42 can be maintained for a long time by cheap vinyl means.

The overlapping joints of the respective vinyl means can be placed on the trough 40 or on one side of the trough 42 when vinyl is applied to the trough 40 and the trough 42.

Putting the vinyl in the furrow (40) in the desert and pressing it with sand or planting soil to grow the plant so that the vinyl does not fly in the wind, the furrow (40) ), The vinyl means is pierced or overlapped at the seams that overlap.

In other words, when the rain falls, the rainwater in the furrow (40) is in the rain and the rainwater can not penetrate into the sand because of the vinyl.

When dew or frost falls down, it flows into the ridge (42) and flows down to the ridge (40), and moisture is supplied to the sand of the ridge (40) or the plant planted in the compounded soil.

The sand planted in the sand of the furrow (40), the plants planted in the blended soil, is a plant that grows in the desert, but it can be a plant that human beings can use to grow food crops, vegetables, grain and cattle .

The vinyl means is widely used in agriculture and industrial fields, and some of the light is transmitted and the light is not transmitted.

The reflection means may be coated on the vinyl means to provide a reflection function.

Hydrophobic material may be coated on the vinyl means to increase hydrophobicity.

The vinyl means is a thin film made of vinyl resin, and its thickness and width can be made to match the valleys 40 and 42.

The vinyl means may be a biodegradable vinyl means.

By using the composite vinyl means added with the fiber means woven in the vinyl means, it is possible to manufacture and use a strong wind-resistant and vigor-resistant vinyl means.

That is, the woven fiber means may be coated by coating vinyl.

Instead of the vinyl means, the gravel 40 and the ridge 42 may be covered and fixed by means of woven fibers (shading means).

A coating adhesive may be used instead of the vinyl means.

In other words, it is possible to form the furrows 40 and the furrows 42 with the sand of the desert, spray the liquid vinyl system or the like adhesive coating agent on the surface thereof, and cure the furrows 40 and the furrows 42 to maintain the shape of the furrows 40 and the furrows 42 Can be used as a substitute for vinyl means.

Alternatively, a sand bed 40 and a bed 42 may be made of sand of the desert, and a fibrous polymer may be sprayed on the surface of the sand bed 40 to distribute the fibers evenly, thereby covering the furrows 40 and the furrows 42.

(40) and ridges (42) are made of desert sand and are melted and hardened by the process of melting and hardening the surfaces of the galls (40) and (42) with hot heat source, To maintain the shape of < RTI ID = 0.0 >

Alternatively, sandy desert sand (40) and ridges (42) may be made and other sand mixed with the adhesive by mechanical means may be applied to the surface of the furrows (40) and the furrows (42) And the shape of the ridge 42 can be maintained.

A groove or groove means for fixing the solar cell module to the solar cell module at the edge 42 can be formed.

Alternatively, seeds of planting and planting may be blended and sprinkled over the furrows (40) and ridges (42) to create conditions for the plants to grow on the furrows (40) and on the furrows (42).

It is possible to use the biodegradable vinyl means as the vinyl means and the biodegradable vinyl means to store the seeds of the plant at specific intervals and to cover the valleys 40 and the wings 42.

That is, the seeds of the plant are arranged between two sheets of the biodegradable vinyl and the two biodegradable vinyls are bonded together.

When the biodegradable vinyl constructed by housing the seeds of the plant is placed on the gravel 40 and the ridge 42, the biodegradable vinyl is decomposed after a certain period of time, and the seed of the plant is expressed in the gravel 40 and the ridge 42, This is a condition that can grow.

In the two biodegradable vinyl means, one can be made of a vinyl resin made of vinyl resin rather than a biodegradable vinyl means.

As another method, seeds of plants may be arranged between the vinyl means and the woven fabric or the nonwoven fabric, and they may be adhered to each other to form a thin covering means.

Seeds contained between the vinyl means and the woven fabric or the nonwoven fabric may grow and develop between the woven fabric or the nonwoven fabric.

Since the vinyl means is located inside and is covered by the side surfaces of the trough 40 and the trough 42, the shape of the trough 40 and the trough 42 is maintained. In the gap of the woven fabric or nonwoven fabric, It is used as a soil that can reduce the root of seeds by having a filter effect that accumulates fine grit and grinds fine grained sand to accumulate seeds.

The gap between the woven fabric or the nonwoven fabric may be filled with the seed of the plant and the compounding soil.

The woven or nonwoven fabric may be a cotton fiber, a synthetic fiber, or an acrylic fiber or a vinyl resin.

The louver 40 and the lane 42 are covered with lid means including vinyl means and the solar cell module means is installed in the sunlight ridge 42 and the long side of the outer frame of the solar cell module 100 It can be fixedly inserted into the ridge 42 from the hole means.

A lid unit including a vinyl means is placed on the trough 40 and the lane 42 and the solar cell module 100 is installed on the sunshine ridge 42 so that the solar cell module 100 is disposed above and below the solar cell module 100, A module fixing frame 50 to be fixed to the module fixing frame 50 is placed and a pile means 59 is inserted into a hole means provided through the module fixing frame 50. The module fixing frame 50 is fixed to the ridge 42, The solar battery module means can be assembled to the roof panel 50 and fixed to the roof 42.

The junction box means in the solar cell module 100 may be provided on the back side of the solar cell module 100 as in the conventional manner or may be provided on one side of the front side of the solar cell module 100.

In the solar cell module 100, the junction box means may be provided on one side of the front surface rather than on the back surface, and close to the edge portion.

In the solar cell module 100, the junction box means may be provided on a side surface other than the back surface or the front surface. Alternatively, the junction box may be omitted from the side surface and the output wiring may be provided with output connector means at the end thereof.

In the desert, the gravels 40 and the ridges 42 are formed by means of a heavy equipment and the surfaces of the gravels 40 and the ridges 42 are melted and converted into glassy materials so that the shape can be maintained.

The width of the trough 40 provided between the trough 42 and the trough 42 may vary depending on the terrain and purpose.

The width of the valleys 40 between the ridges 42 and the ridges 42 can be increased to increase the number of plants planted in the valleys 40, , Or build a house where people can live.

Or the interval between the ridges 42 and the ridges 42 may be narrowed so that the interval between the ridges 42 and the ridges 42 may be formed in a V-shape.

When making the furrows (40) and the furrows (42), the furrows (40) and the furrows (42) are made long so that they can be maintained.

When making the fur (40) and the ridge (42) in the desert, the shape can be maintained for a long time when it is made by plastering it with plastic means or by melting the surface and making it vitreous.

When making the troughs 40 and the troughs 42, the surface of the trough 42 may have a certain shape.

That is, the groove means of the jaw that can easily fix the solar cell module is formed in the ridge 42 of the sunlight side, the surface of the groove is melted to be made of glass to maintain its shape, It can be inserted and fixed in the jaw.

The furrows can be omitted when the surfaces of the gravels 40 and 42 and the surface of the gravels 42 are melted to make glass.

In other words, only the ridge (42) is melted and made into glass, and the trough is left as it is or it is used with vinyl.

The furrow (40) may have the same function of collecting water if it rains or dew falls.

The gravel (40) is covered with vinyl, or the surface is melted to make glass to prevent the water from flowing to the bottom.

The water gathered in the furrows (40) supplies water to the plants planted in the furrows (40) and plants growing on the backside of the furrows (42) of the furrows (40).

In mountainous terrain with slopes in the desert, all the places where there is no sunshine are planted intensively to make greenery, to put vinyl, to make holes in some places, to plant trees in the holes.

In mountainous terrain with a slope in the desert, the solar cell module means should be arranged in a line from the top to the bottom in the sunshine, with the same inclination to the mountain slope, and intensively tiny plants .

The plant may be a silk-screening or gabbing screen.

That is, the width of the solar cell module means is not more than about 2 m, and the width of the plant between the lines of the solar cell module means is not more than about 2 m.

Another method in the mountainous terrain with slopes in the desert is to create a horizontal path of about 50cm that can be carried by the person in the horizontal direction at the sunshine.

In the slope of 1.5M width, vinyl is put and solar cell module means is constructed, and plants are planted on the horizontal road of about 50cm width.

Explain that solar cell module means are installed in the desert without making furrows and ridges.

Vinyl means are laid on the terrain of the desert, and the vinyl means is fixed by pressing the frame of the solar cell module means while installing the solar cell module means.

That is, a plastic unit is placed on the desert, and a frame for fixing the solar cell module unit is mounted on the vinyl while pressing the vinyl.

The solar cell module is a patented invention, the name of the invention: a photovoltaic module and method to install in the rice paddy, Patent No. 10-2015-0027875 patented, do.

After the vinyl is laid, the solar cell module is installed, and then the vinyl between the solar cell module means and the solar cell module means is pierced and the tall plants growing well in the desert are planted closely.

In other words, it is possible to prevent the desertification from proceeding and to prevent the yellow wind from blowing by putting vinyl in the desert and installing a solar module on it.

In addition, due to the benefit of electric energy generated from the solar cell module, the desert can be made green by growing plants growing through the vinyl through the desert.

Desert growing plants are planted beneath the solar cell module means and between the solar cell module means.

Since the vinyl means cover the sand, the sand is not blown in the wind, so the plant is not drowned in the sand and dies, so the survival rate is high and it is easy to green.

In addition, the solar cell module means make shade so that the plant does not easily dry out from strong sunlight.

In addition, because of the solar module means, the wind resistance is weakened and the strength of the wind is weakened. As a result, the sand wind is not blown and the yellow sand is controlled.

It is possible to quickly cover the desiccant with the vinyl means and install the solar cell module quickly, and it is advantageous in that the installation cost of the solar cell module is simple and the construction cost is low.

The solar cell used in the solar cell module used in the present invention may be a crystalline silicon solar cell, or a thin film solar cell including CIGC thin film solar cell.

Please refer to the name of the invention: Sealed solar cell module: Application No. 10-2015-0003324.

The sealed solar cell module has various technologies such as a technology for increasing the lifetime of the solar cell and a junction box provided on the front side.

The above technique can be performed by using the terrain of the desert as it is and by flattening the terrain of the desert.

Instead of vinyl, the above-mentioned paper surface can be melted and vitrified.

Woven fabric instead of vinyl, or nonwoven fabric.

Instead of vinyl, you can replace it with a shade.

In Figs. 1A and 1B, the paddy 40 and the ridge 42 are formed in the paddy 20 by means of a tractor and the like mechanical means.

In other words, if a tractor is used to grind the soil and make it into fine grains, the soil (42) shaped jig is formed to soften the soil. When dragged on the ridge (42) The shape of the valleys (40) and the ridges (42) are made.

The valley angle (g) can be selected from the range of 40 degrees to 160 degrees.

The angle f can be selected from the range of 40 degrees to 160 degrees.

The ridge angle e with respect to the vertical angle h may be selected from a range of 20 degrees to 80 degrees.

The angle of the ridge (42) is configured according to the angle of the sun depending on each country, region, and season.

In Korea, the average fixed solar cell angle for four seasons is about 30 to 37 degrees.

The direction of the formed ridge (42) should be on one side and the other side on the back facing north.

In other words, one side of the ridge (42) is the direction in which the sunlight shines best, and the other side of the ridge (42) is the least sunlight.

It is a matter of course that the grooves of the troughs 40 formed between the troughs 42 and the troughs 42 are oriented toward the east and west respectively.

As shown in FIG. 2B, vinyl is put on the formed valleys 40 and 42, the ends of the width of the vinyl are gathered in the valleys 40, and the vinyl is fixed by the pipe 48 so that the vinyl does not fly in the wind.

Since the padding 40 and the padding 42 can not be made large in the paddy 20, vinyl is laid on the paddy 40 and the paddy 42 on the paddy 20, There is a disadvantage in that the muddy water may protrude and contaminate the solar cell module 100 when it comes to rain, so that the pipe 48 of the metal material is advantageous when fixing the vinyl in the gravel 40. [

Instead of the means of the pipe 48, it may be replaced by a home-made means made by folding a metal plate, or by gravel, wood, or steel.

This will be described below with reference to FIG. 2C.

A vinyl unit is attached to the paddy 40 and the ridge 42 on the paddy 20 and fixed to the pipe 40 by means of the pipe 48. The solar cell 42 is provided above the ridge 42 in the best- The rear surface of the panel of the module 100 is brought into close contact with the vinyl means and the edge of the module is tightly pressed so that the vinyl means is not torn and the soil is pushed inwardly to fix the solar cell module 100 into the inside of the trough 42, So that the back surface of the battery module 100 can be brought into close contact with the surface of the ridge 42.

That is, the four sides of the square of the solar cell module 100 are located close to the uppermost end of the ridge 42, and the edge of the ridge 42 is pressed like a plastic to push the soil of the ridge 42 into the solar cell module 100 And the front surface of the solar cell module 100 is fixed in the category of the height equal to or similar to the original surface of the ridge 42 and the back surface is brought into close contact.

Since the sizes of the valleys 40 and the ridges 42 are limited in the rice 20, the size of the solar cell module 100 is the solar cell module 100 using the silicon crystalline solar cell

It is preferable that the size of the solar cell means is 156 cm in width and 6 to 10 sheets in the longitudinal direction of the solar cell module 100 within one to six sheets of the width of the solar cell module 100.

Various kinds of thin film solar cells such as CIGS and CIS including a silicon nodule solar cell can be used as the type of solar cell accommodated in the solar cell module 100, and a flexible solar cell module can also be used.

The wiring may be electrically connected to the solar cell module 100 before the solar cell module 100 is pressed and fixed to the ridge 42 so that the wiring may be pressed together with the ridge 42 to be fixed.

Or the upper part of the solar cell module 100 may be positioned so as to be deviated upwardly from the ridge 42 and the wiring process may be performed on the rear surface thereof.

The joints of the solar cell module 100 fixed to the ridge 42 and the joints of the solar cell module 100 on the sides can be fixed with adhesive tape and the upper and lower edges of the solar cell module 100 can be fixed with adhesive tape It can be fixed by adhering to vinyl.

It is also possible to use a nylon cord or a metal wire or tape means to connect the connection portion of the solar cell module 100 and the upper and lower edge frames to the pipe 48 fixing the vinyl means to the trough 40 Can be connected and fixed.

Since the rainfall should escape when the rain is heavy, there should be no unnecessary structures in the trough (40).

The vinyl means covering the valleys 40 and the ridges 42 does not allow the paddy 20 to bloom and prevents the muddy water from splashing onto the solar cell module 100 when it rains. And the shape of the ridge 42 are maintained.

In the above description, the agricultural rice is cultivated in the rice barrel 20 and the solar cell module 100 is installed as described above immediately after the harvest is completed.

In the following year, when the farming season is over, the solar cell module 100 can be easily dismantled, the crops can be planted in the barley 42, or the vinyl can be stripped off and the rice 20 can be ground and planarized.

This is illustrated in FIG.

A configuration capable of solar power generation in the desert 30 other than the rice paddies 20 will be described.

Desertification is rapidly progressing in each country, and various measures are proposed in each country to slow down the desertification process, but there is no practical plan.

The present invention proposes a method of preventing desertification.

A valley 40 and a ridge 42 are formed in the desert 30 and a vinyl means is covered in the valleys 40 and 42 and then the vinyl is pressed and fixed in the valleys 40 from the valleys 40.

Blended soil (49) can be sand in the desert or mixed with soil mixed with sand.

Blended soil (49) can be used in combination with soil and fertilizer that plants can grow and grow.

In the desert (30), Gore (40) and Gore (42) are created with the aim of using for over 30 years.

A trough 40 and a ridge 42 are formed in the desert 30 and a solar cell module 100 is installed to provide a photovoltaic power generation facility.

Planting tall plants in the blend soil (49) of the trough (40).

When the dew falls at night, the dew is flowed to the vinyl means of the float (42) and the solar cell module (100), and is supplied to the gravel (40) as part of the water required for the plant.

Plants planted in Gorge (40) can not survive in dry desert because they do not see much sunshine because they are covered with sunlight (42).

When the plants grow in the furrow (40), they take out the holes sequentially from the lower side of the plastic means covered with the sunlight-free northward direction (42) and induce the plants to grow in the holes, Allow the plants to grow in the paddy (42).

In this configuration, the vinyl means can be fixed with the sand in the valleys 40 and the valleys 40 adjacent to the valleys 42, covering only the valleys 40 and 42 of the valleys 42.

It is possible to flatten the mountain with heavy equipment and make the gravels 40 and ridges 42 and cover the ridges 42 with the vinyl means and the vinyl means with the gravels in the gravel 40 adjacent to the ridges 42, There is an advantage that the muddy water splashes out in the valleys and does not contaminate the solar cell module.

It is desirable not to use gravel because it is a stone that should be removed from paddy fields and fields when fixing the vinyl means with gravel. It may be used in the desert but it is effective to fix it with common sand.

In the above description, when making the gravels 40 and the ridges 42 in the rice fields, the fields and the desert, covering the gravels 40 and the vinyls 42 and fixing the vinyls in the gravels, Soil, gravel, sand, and blended soil.

However, when the paddy (40) and the paddy (42) are formed in the paddy field and the veneer is covered in the paddle (40) and the paddy (42) have.

That is, the lower frame of the solar cell module 100 may have a separate fixed frame unit integrally formed therein, and the plastic may be pressed and fixed.

In detail, when another lower frame means extending from the lower frame of the solar cell module 100 is provided and the vinyl is pressed and fixed in the trough 40, the solar cell module is located at the upper end portion in the middle portion of the channel 42, (42), or they are inserted by being pressed by a finger and fixed.

Instead of the vinyl means covering the valleys 40 and the ridges 42,

(40) and ridges (42) are covered with a thin metal plate, a plastic plate, and a wooden plate which are shaped like a grate and a ridge, The present invention can achieve the object of the photovoltaic generation and desertification prevention method using the valleys 40 of the present invention.

In the above construction, the vinyl means, the plate material means, and the like covering the trough 40 and the trough 42 can be configured not to be pounded by the trough 40 and the trough 42 by the pile means.

The pile means may be composed of plastics, metal, wood, etc., and a barb means or the like may be constructed so that the shovel does not fall into one or more side portions of the end portion of the end portion. It can be made up of a wide head.

It is possible to have a good effect by densely fixing the pile means, but it can be fixed at a constant interval to reduce the cost.

In order to construct solar power plants in all deserts, it is difficult to install solar cell modules in a conventional manner by installing conventional solar cell modules and the cost is too high.

Also, the sand wind of the desert destroys the solar power plant, adding to the difficulty.

However, according to the present invention, it is possible to manufacture a photovoltaic power generation plant with low cost by using the low-cost and low-cost vinyl means as a means of maintaining the shape of the valleys 40 and the ridges 42, It can accomplish a great purpose of being able to play a role, and can achieve the purpose of making plant community effectively in the desert and to be able to grow.

The ridge (42) described above is not a round shape, but it is a shape that can install a solar module means. When you see a cross-section from the side, when you connect the bottom of the ridge, it becomes close to a triangle shape. The angle of the two sides of the back with the shadow and the angle of the front and the like have the angle of the width of the choice which the constructor can use.

Another example in E and F of Fig. 3 will be described below.

 In FIG. 3, each module fixing frame 50 is formed in a transverse direction on one side of a front upper end portion and a middle portion of a ridge 42 in E, and is fixed with a pile 59.

That is, the module fixing frame 50 is provided with a penetrating pile hole and the upper end thereof is provided with a pile 59 and a head hole at regular intervals to fix the pile 59 to the embedding ridge 42.

In addition, the module fixing frame 50 is provided with bolt holes arranged at intervals corresponding to the length of the solar cell module 100, and is used as means for positioning and fixing the solar cell module 100.

That is, the module fixing frame 50 is fixed to the ridge 42 and the solar cell module 100 is fixed to the module fixing frame 50.

The module fixing frames 50 may be arranged in a plurality of the plurality of the module fixing frames 50 and fixed to the piles 59 to prevent the vinyl unit from being blown in the wind even if the solar cell module 100 is not provided on the back side of the trough 42.

As a means for preventing the vinyl from being blown off from the back side of the web 42, it is possible to use the rope means in place of the module fixing frame 50. The rope means is arranged in a stretched state in the transverse direction, So that the vinyl can be prevented from being blown.

F in Fig.

 The module fixing frame 50 is configured in the lateral direction on one side of the front upper end portion and one side of the middle portion of the ridge 42 and is fixed with the pile 59,

 The upper and lower portions of the front and rear surfaces of the ridge 42 can be covered with the inverted module fixing frame 55 to prevent the top portion of the vinyl from easily tearing.

This will be described below with reference to FIG. 4G.

The width of the trough 40 in the trough 40 and the trough 42 is significantly smaller than the bottom width of the trough 42 and is narrow.

In G, the trough (40) can be planted with tall plants.

The upper nipple 43 does not appear to be a completely sharp point but has a gentle R shape.

The width of the valleys 40 and the width of the ridges 42 are similar to each other in the valleys 40 and 42 of H in FIG.

At H, the trough (40) can be planted with tall plants.

The width of the trough 40 in the trough 40 and the trough 42 of K in FIG. 4 is about two times wider than the bottom width of the trough 42.

At K, the fur (40) can plant small plants, cereals, and walk people's way.

The width of the valleys 40 in the valleys 40 and the valleys 42 of the L shown in FIG. 4 is two times wider than the width of the bottoms of the valleys 42.

In L, Gurang (40) can plant tall plants, tall plants, tall trees, build houses where people can live, build us where livestock can live, .

As shown in FIG. 5, M may be formed to have a wide width, such as the upper flat 44 of the ridge 42, to plant small-sized plants and to make people's way.

A configuration in which the solar cell module can be installed in an area other than a flat area in P in Fig. 5 will be described below.

In the mountain where the sea slopes from the sloping mountain, a road (45) which can be taken by people in the horizontal direction is made in the mountain, and the gorge (40) made in the flat ground is arranged and arranged at regular intervals, ).

Vinyl is put on the road 45 and the ridgeline 47 and the loofah means is tightly arranged on the way 45 and the pile 59 is fixed by being fixed so that the vinyl does not fly.

The solar cell module 100 can be fixedly fixed to the surface 47 by a method of pressing and fixing the solar cell module 100 as described above with reference to FIG.

The module fixing frames 50 may be arranged at regular intervals to pivot the piles 59 and fix the solar cell module 100 to the module fixing frame 50 to constitute the power generating means.

Hereinafter, another example of Q and R in Fig. 6 will be described.

One of the ways to reduce the cost of constructing a frame for a solar power plant is to make the frame robust while reducing the weight.

A metal frame is used to construct the thrust frame 70 of the thrust structure.

The thrust frame 70 is disposed at a predetermined spacing between the phase current 60 and the bottom frame 61 and arranges the frame 65 in a zigzag fashion therebetween, And the welding is performed at the welded portion 67 where the welded portion 65 is brought into contact with the workpiece 65 at the bottom end 61 to integrate the welded portion 60 and the welded portion 61 at the upper end 60 and the lower end 61, Welded to each other to weld the side member (62) together by welding to form a thrust frame (70).

Metal wires can be used as the material of the upper current 60, the lower current 61, the side member 62 and the work 65 of the thrust frame 70. [

Metal pipes can be used as the materials of the upper 60, lower 61, side 62, and work 65 of the thrust frame 70.

The width of the thrust frame 70 may be varied depending on the width of the solar cell module 100 to be used.

That is, when the width of the solar cell module 100 is about 1M, the width of the thrust frame 70 can be used within about 1M 50cm.

The length of the thrust frame 70 should be within about 6M since it must have a length that can be transported by the transportation vehicle.

h is a side view of the one-column power plant 120 shown by enlarging the thrust frame 70 into a triangle.

In the rice field where the power plant should be made or the desert site, a single thrust frame 70 is laid on the floor and another thrust frame 70 is set up at the width of the thrust frame 70 to clip each vertex into a triangle shape They can be bundled with wires, bundled with ties, tied with ties, connected with hinge means, and integrated with welding means.

The module fixing frame 50 is formed in the longitudinal direction of the thrust frame 70 at one of the upper and intermediate portions of one of the two thrust frames 70 erected in a triangle shape and is fixed by welding, The solar cell module 100 is fixed to the one-column power plant 120.

A plurality of one-column power plants 120 may be connected in the longitudinal direction to form a power plant, and a plurality of columns may be formed at regular intervals to form a large power plant.

When using in the desert, first put vinyl on the floor and take steps so that the sand of the desert is not blown in the wind. A large-scale power plant is constructed by arranging one heat power plant (120) on the vinyl and drilling the vinyl at a regular interval You can plant a small tree in the hole and plant it, or you can plant it to make green papers. You can also use grains and vegetables for food.

In other words, the desert can be made green by solar power generation.

In the field of flat land, there is an advantage that a desired power plant can be constructed easily by arranging a single power plant 120 directly.

All of the throttle frames 70 are used by performing hot-dip galvanizing or painting in a similar manner to prevent rust.

Hereinafter, another example usable in the desert will be described.

A metal frame, or a composite plastic frame, which is made of a movable frame such as the above-described shape of a ridge, and made to have a constant length.

The movable frame is fixed by covering both the front and back sides with vinyl.

A solar cell module is installed on the front and the side of the movable frame to enable solar power generation.

The bottom of the movable frame is open and the bottom of the frame becomes the sand bottom of the desert.

The movable frame is moved to the desert and planted in the desert is planted on the inside of the frame.

Since the solar cell module installed on the front side of the movable frame allows the sunlight to shine slightly inside the frame, it becomes a condition for the plants to grow in the dry environment of the desert.

Also, even if the wind blows, the sand can not enter the inside of the frame, and the plant can not cover it.

A dew may be formed on the front and back sides of the movable frame so as to supply the dew that flows down to the inside of the frame.

The movable frame is arranged at a certain interval in the desert to grow plants in the solar power generation, and plants are planted between each movable frame and the frame.

If the plant grows big enough to be able to grow wild, you can move each frame and frame to another place and repeat the act of cultivating the same plant again while making solar power, so that you can make green space in the desert.

Desert (30) with rice (20)
Gore (40) and (42)
The upper flap 43, the upper flap 44,
Pipes (48) Batch soil (49)
Module fastening frames (50) Module fastening frames (55)
Pile (59) on the current (60)
(61) side member (62)
Workpiece (65) Weldment (66)
The welds (67) the thrust frame (70)
Solar cell module (100) One heat power plant (120)
The angle (e) and the angle (f)
Fill angle (g) Vertical angle (h)

Claims (25)

In the east of the rice paddy field, in the direction of the west, the shape of the paddy and the paddy is arranged in the direction of the west, the vinyl is put on the paddy and the paddy, the vinyl is pressed by the metal pipe means in the paddy, Wherein the solar cell module means is installed in the solar cell module. It is characterized in that the shape of a furrow and a ridge is made in the desert, the above-mentioned furrows and ridges are covered with vinyls, and the solar cell module means is installed in the sunlight- To prevent photovoltaic power generation and desertification. 3. The method according to any one of claims 1 to 2,
Wherein the trench angle (g) can be selected from the range of 40 to 160 degrees. 3. The method according to any one of claims 1 to 2,
And the angle f can be selected from the range of 40 to 160 degrees. 3. The method according to any one of claims 1 to 2,
And a ridge angle (e) with respect to the vertical angle (h) can be selected from the range of 40 to 160 degrees. 3. The method of claim 2,
A method for preventing photovoltaic power generation and desertification using ridges and furrows, characterized by growing plants or growing crops in the blended soil. In the desert, make the shape of the furrows and ridges, put the vinyl in the furrows and the ridges, fix the sand in the furrows or the vinyl in the blend soil, install the solar module means in the sunshine field, and cultivate plants and crops A method for preventing photovoltaic power generation and desertification by using irrigation and furrow, which is characterized by that solar power generation and crops can be raised and desertification can be prevented. 3. The method according to any one of claims 1 to 2,
A method of preventing photovoltaic power generation and desertification using ridges and furrows characterized by the rounded shape of the lakes and valleys. 3. The method according to any one of claims 1 to 2,
A method for preventing photovoltaic power generation and desertification using a ridge and a furrow, characterized in that the vinyl means is transparent to light, is semi-transparent or does not transmit light. 3. The method according to any one of claims 1 to 2,
A method for preventing photovoltaic power generation and desertification using ridges and valleys, characterized in that the vinyl means is coated with a reflective coating. 3. The method according to any one of claims 1 to 2,
A method for preventing photovoltaic power generation and desertification using a trough and a trough, characterized in that the solar cell means used in the solar cell module are all thin film solar cell means including silicon crystalline solar cells and CIGS thin film solar cells. 3. The method according to any one of claims 1 to 2,
A method for preventing photovoltaic power generation and desertification using ridges and furrows, characterized in that the dew is flowed to the ridges and gathered in the ridges. Wherein the vinyl means has a reflection function by coating a reflection means on the vinyl means. A method for preventing photovoltaic power generation and desertification using a hydrophobic material by coating a hydrophobic material on the vinyl means and using a hydrophobic vinyl means. Wherein the vinyl means is a biodegradable vinyl means. Wherein the vinyl means is a composite vinyl means having vinyl means bonded to the woven fiber means. The method of preventing photovoltaic generation and desertification according to claim 1, wherein the gravel and ridges are covered and fixed by means of woven fibers instead of the vinyl means. The method for preventing photovoltaic power generation and desertification using a ridge and a furrow, characterized in that a coating adhesive is used instead of the vinyl means and sprayed on the surface of the furrow and the furrow to cure the furrow and the furrow. 19. The method of claim 18,
Wherein the adhesive means is a vinyl means in a liquid state. A method for preventing photovoltaic power generation and desertification by using a ridge and a furrow, which are characterized by the formation of gravels and ridges, the spraying of fibrous polymer on the surface, and the distribution of fibers evenly distributed over the gorges and ridges. A method of preventing photovoltaic power generation and desertification by using gravel and ridges formed by desert sand and melting and curing the surface of gravel and ridges with hot heat source, and using ridges and furrows characterized by fixed gravels and ridges. Solar power generation with ridges and furrows characterized by making furrows and ridges of desert sand, mixing other sand with adhesive by mechanical means, spraying and curing on the surface of furrows and ridges to maintain the shape of furrows and ridges And desertification prevention method.  And a jaw to which the solar cell module can be inserted and fixed in the lane where the solar cell module is installed. A method of preventing photovoltaic power generation and desertification using ridges and valleys that can be constructed by covering the ridges and ridges with plate means instead of the vinyl means covering the ridges and ridges. A method of preventing photovoltaic power generation and desertification using ridges and furrows which can be stuck and fixed on the furrows and ridges by means of piles or piles of plastic or board means covered with gravel and ridges.

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