KR20160086729A - The sunbeam module and method in which I installed in the rice paddy - Google Patents

Abstract

In Korea, a photovoltaic module is currently installed through a method for constructing a large-scaled solar power plant facility by cultivating a mountain area, and a method for constructing a large-scaled power plant facility in a field and a paddy. In this case, when the photovoltaic module is installed in the mountain area, the forest is destroyed, and when the photovoltaic module is installed in a field and a paddy, the field and the paddy are occupied. Although photovoltaic power generation is in an initial stage now, a small thickly-peopled country has a difficult problem in selecting a place to construct a photovoltaic power plant facility occupying a large area as the anxiety about forest destruction and a farmland occupancy ratio. A method for installing a photovoltaic module without occupying a field and a paddy is characterized by easily installing the photovoltaic module in the field and the paddy during a non-farming season after the harvest and doing farming by using electricity through photovoltaic power generation.

Description

[0001] The present invention relates to a solar module and a method for installing the same in a rice paddy,

The present invention relates to a photovoltaic module installed in a rice paddy.

Korea is a country that has become a mountain and an answer.

Korea currently has a large-scale power generation facility and a method of opening a large-scale solar power generation facility and clearing mountain areas when installing solar modules.

As a result, forests are being destroyed when solar modules are installed in the mountains, and when the solar modules are installed in the answer, the generation of the generation facilities is occupied.

Currently, solar power generation facilities that occupy an area large enough to worry about destruction of forests and farmland share, even in the early stage of the spread of solar power,

[Patent Document 1] Title of the invention: Ginseng field assembly using solar panel and arbitrary combination, Application No. 10-2009-0069843, filed on July 30, 2009

The problem to be solved by the present invention is that the solar modules are installed in the answers,

In the past, the solar modules installed in the answer,

The present invention relates to a method for installing a solar module in an answer.

I do not occupy the farm land of answer, but install the solar module before and after the harvest. After the harvest is completed, I install the solar module easily by the solar power generation, We make another income every year and repeat the farming of grain in farming industry every year.

In answer to the question, the sunlight module, which is easily installed in the answer, has a great advantage to generate another income of the farmers, Solar power can be generated, and it has an advantage that it can increase the renewable electric power generation in the winter when electricity usage is rapidly increasing.

1 (a) and 1 (b) are perspective views illustrating a process of assembling the solar cell module 100 to the protection frame 110. FIG.
2C and 2D are perspective views of a process of assembling the mounting and fixing frame 120 to the protective frame 110. FIG.
3E and 3F are perspective views showing a front surface and a rear surface of the simple construction solar module 300,
g is a side view of the simple installation photovoltaic module 300 that is seen standing upright on the mounting stationary frame 120. FIG.
4 (h) is a perspective view of the simple installation solar module 300 which is seen standing upright on the installation stationary frame 120,
k is a perspective view showing an example in which the simple installation solar module 300 is arranged by standing up on the installation fixed frame 120 on the open side.
5, m and n are perspective views of the simple construction solar module 310.
6, p and q are perspective views of the simple construction solar module 320.
7, r and s are perspective views of the simple construction solar module 330.
8, t and u are perspective views of the simple construction solar module 340.
9, v and w are perspective views of the simple construction solar module 350. FIG.
In FIG. 10, x and y are perspective views of the simple construction solar module 360.
Z and A in Fig. 11 are perspective views of the simple construction solar module 370.
12B and 12C are perspective views of the simple construction solar module 380. FIG.
D and E in Fig. 13 are perspective views of the simple construction solar module 390. Fig.
F and G in Fig. 14 are perspective views of the simple construction solar module 400. Fig.
H and J in Fig. 15 are perspective views of the simple construction solar module 410. Fig.
16, K and L are perspective views of the simple construction solar module 420.
17, M and N are perspective views of the simple construction solar module 430.
P and Q in FIG. 18 are perspective views of the simple construction solar module 440.
19, R and S are perspective views of the simple construction solar module 450.
U and V in FIG. 20 are perspective views of the simple construction solar module 460.
Z and c in FIG. 21 are perspective views of the simple construction solar module 460.
22E and 22H are apostles illustrating an example of using the simple construction solar module 460. FIG.
K in FIG. 23 is an apostrophe showing a use example on the side of the simple construction solar module 460.
23, m is a perspective view of the simple construction solar module 470.
P and q in FIG. 24 are perspective views of the simple construction solar module 480.
25, r is a perspective view of the simple construction solar module 490 and s is a perspective view of the simple construction solar module 500. [
T and v in Fig. 26 are explanatory diagrams of the folding type solar cell module 510. Fig.
Fig. 27 is an installation explanatory view of the simple construction solar module 320 using the pipe 90. Fig.
Figs. 28, 29, 30 and 31 are explanatory views of the installation of the solar cell module 100 using the pipe 90. Fig.
32 is a perspective view of a simple construction solar cell module 521;
33 is a perspective view of a simple construction solar cell module 531;
34 is a perspective view of a simple construction solar cell module 541;
35 is a perspective view of a simple construction solar cell module 522;
36 is an exploded view of the non-solar power plant 600;
37 is an exploded view of the non-solar power generation plant 610;
38 is an exploded view of the non-solar power generation plant 611. Fig.
39 is an exploded view of the non-solar power generation plant 612;
40 is an exploded view of a non-solar power plant 613;
41 is an exploded view of the non-solar power plant 614;
42 is an exploded view of the non-solar power plant 615;
43 is an exploded view of the non-solar power plant 616;
44 is an exploded view of a non-solar power plant 617;
45 is an exploded view of the non-solar power plant 618;
46 is an exploded view of a solar power station 619;
47 is a developed view of a non-solar power generation plant 620;

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

1A and 1B, the solar cell module 100 and the protection frame 110 will be described.

The solar cell module 100 is a conventionally used solar cell module means.

Fixed to frame and used for power generation.

The protection frame 110 is a means for housing and fixing the solar cell module 100 to protect the solar cell module 100 in an installation environment and facilitate installation.

The protection rectangular frame 20 of the protection frame 110 is formed into a rectangular or rectangular shape of the solar cell module 100.

A lower support 24 is extended from the lower part of the protection rectangular frame 20 and the auxiliary frame 26 is laterally connected to the intermediate part of the protection rectangular frame 20, (27), and the support base end (25) can be protruded.

A pile fixing plate 28 is formed on the outer side of the support frame end portion 25 and a pile hole 29 penetrating through the pile fixing hole 28 is provided.

A hinge hole (37) is provided through the upper end of the both side protection rectangular frame (20) so as to be laterally penetrated.

The auxiliary frame 26 is used as a pedestal when lifting a forklift or moving it into a tractor, and an impact relieving groove 27 is formed so that the impact is not directly transmitted to the solar cell module 100, .

A protruding locking protrusion 30 is provided at an intermediate portion of the inner wall of the protection rectangular frame 20 and front and rear fitting groove portions 31 and rear fitting groove portions 32 are provided in front of and behind the locking protrusions 30, And a fixing hole 35 penetrating through the front mounting groove portion 31 and the back mounting groove portion 32 are arranged.

The fixing holes 35 are provided corresponding to the fixing holes 15 provided in the module frame 13 of the solar cell module 100.

The depth of the front mounting groove portion 31 is deeper than the solar cell module 100 and protrudes from the solar cell module 100 by about 2 mm to 5 mm when the solar cell module 100 is inserted and fixed to protect the solar cell module 100 .

The mounting and fixing frame 120 is assembled to the backside mounting groove 32.

Will be described in FIGS. 2C and 2D.

Is inserted into the fixing hole 35 of the fixing frame 30 of the protective frame 110 and the front mounting groove portion 31 from the back surface of the solar cell module 100 and is locked by the fixing hole 15 and the bolt and nut means, And fixed by bonding.

The rear mounting groove portion 32 of the protective frame 110 is inserted into the rear mounting groove portion 32 of the mounting fixing frame 120 and the hinge hole 48 of the hinge frame 40 is aligned with the hinge hole 37 The hinge shaft 49 is inserted and fixed on both sides of the hinge shaft 49 so that the hinge shaft 49 is mounted on the axis of the hinge shaft 49. The fixing frame 120 is rotated in a predetermined angular range, 32 and can be pulled out to the outside.

The mounting fixing frame 120 can not move to the front mounting groove portion 31 by being caught by the fixing jaw 30 at the rear mounting groove portion 32 so that the solar cell back surface of the solar cell module 100 is not impacted.

The hinge frame 40 has a square shape and has hinge holes 48 corresponding to the hinge holes 37 on both sides of the upper hinge frame 40 and a lower frame 42 on the lower side. At least one pile hole 45 penetrating from top to bottom is provided.

The support frame 44 is provided at a lower end of the left and right support frames 41 of the mounting and fixing frame 120 so as to protrude further than the lower frame 42.

The lower frame 42 may be constructed as a lower frame having the lowest height in the mounting and fixing frame 120 without providing the support frame end 44 according to the purpose.

The simple construction solar module 300 is completed as shown in FIGS.

As shown in FIG. 3 (g), the simple construction solar module 300 comes out of the fixing frame 120 with the hinge shaft 49 as a center of rotation and has a certain angle with the protection frame 110, To 120 degrees, and is illustrated and explained at an angle of 80 degrees in the drawing.

Although not illustrated in the present invention, a plurality of simple installation solar modules 300 may be connected to the installation fixed frame 120 of each simple installation solar module 300 and one side of the protection frame 110 of another simple installation solar module 300, The simple construction solar module 300 is stacked and can be unfolded and constructed when it is used.

In FIG. 4 (h), the simple construction solar module 300 is shown in a perspective view, and k is a diagram showing that a plurality of simple construction solar modules 300 are arranged in a single line.

The simple installation solar module 300 is installed at a predetermined angle by opening the fixed frame 120 and the solar module 100 is rotated in a range of about 25 degrees to 55 degrees toward the sun to a predetermined angle .

Korea is constructing the solar module at about 37 degrees when it is fixed type.

The reason for this is that the altitude of the sun varies according to the season, and since the altitude of the sun is low in winter, it has an altitude of about 25 degrees in summer and about 55 degrees in summer.

Each of the simple construction solar modules 300 is arranged in a line and inserted into the pile hole 29 and the pile hole 45 by a fixed pile means and fixed on the ground to prevent it from falling in a strong wind.

The simple construction solar modules 300 are connected in series or in parallel by wiring in a junction box 19 provided on the back surface of the solar cell module 100 and output wiring is provided so that the inverter means It can be sent to KEPCO via a nearby electric pole, or it can be used in a nearby house or factory.

In the photovoltaic module and method installed in the rice paddy of the present invention, the rice harvested after being harvested is left for about 5 to 6 months. The simple construction solar cell module 300 is installed for 5 to 6 months, Electricity farming can create another income for the farmer.

During the one-year discussion period, it is convenient to install the simple construction photovoltaic module 300 in the paddy field which is left for about 5 months to 6 months, which is close to half, so that it can develop and collect easily. Electricity can be generated and produced.

We can actively invest in local governments and purchase electricity generated by the government and power generation companies at a good price to reduce the use of fossil fuels including nuclear power, reduce environmental pollution, Above all, it is a system that can generate farmers' income and can activate solar power generation.

The simple construction solar module 305 will be described in Fig. 4 (k).

The mounting fixing frame 55 is configured to be operated by the hinge shaft 49 at the upper end of the rear surface of the supporting frame 60 assembled to the side of the outer module frame 13 of the solar cell module 100

The lower end fixing frame 22 is fixed by the hinge shaft 49 and the lower end fixing frame 22 and the end portion of the mounting fixing frame 55 are integrally connected to each other at the lower end of the rear surface of the supporting frame 60, ).

The stand frame 125 is folded around the hinge shaft 49 to the back surface of the simple construction solar module 305 as the center of rotation.

When the stand frame 125 is unfolded from the simple construction solar module 305 when it is used, it is fixed by the stand frame 125.

The angle between the lower stationary fixing frame 22 and the solar cell module 100 is shown to be 50 degrees in the present invention.

Hereinafter, the installation fixed frame 130 and the simple installation solar module 310 will be described with reference to m and n in FIG.

And has a fixing hole 16 on the side of the module frame 13 of the solar cell module 100.

The installation stationary frame 130 is an installation stationary frame 55 connected to the support frame 60 by a hinge shaft 49 at the upper end thereof and two of which are fixed to the left and right of the solar cell module 100.

The mounting frame 130 has a nut hole 61 corresponding to the fixing hole 16 of the module frame 13 of the solar cell module 100 on the side surface of the quadrangular prism frame 60.

The length of the strut frame 60 is longer than the length of the solar cell module 100 so that the lower end of the strut frame 60 protruding downward from the solar cell module 100 is configured as a pedestal.

A hinge hole (37) is provided on a side surface of the upper end of the strut frame (60).

And a pile hole 45 penetrating from the upper end to the lower end of the pillar frame 60 is provided.

The upper end of the supporting frame 60 is positioned on the side upper end portion of the solar cell module 100 on the side surface of the solar cell module 100 and the bolts are inserted into the fixing holes 16 to be fixed to the nut holes 61 in a locked manner.

The mounting fixing frame 55 is provided with a hinge hole 48 whose cross section is a quadrangular shape and which penetrates to the side of the upper end, and a pile hole 45 penetrating from the upper end to the lower end.

The simple construction solar module 310 is constructed by aligning the hinge holes 48 of the mounting fixing frame 55 on the hinge holes 37 of the supporting frame 60 in the same line and assembling the hinge shafts 49 with each other.

The simple construction solar module 310 has a simple structure and is easy to assemble and easy to move.

The installation fixed frame 55 of the simple construction solar module 310 can rotate around the hinge shaft 49 so that the angle between the support frame 60 and the installation fixing frame 55 can be adjusted by the hinge shaft 49 Since it can be adjusted in the range of 0 degree to 360 degree by the center of rotation, it can be folded or unfolded so as to be arranged at a constant angle.

In the present invention, n in FIG. 5 is shown as 100 in the example of use. The length of the fixing frame 55 can be freely selected according to the purpose of the user or the manufacturer.

The length of the portion of the supporting frame 60 protruding to the lower end of the solar cell module 100 and used as a frame can be freely selected depending on the purpose of use of the user or the manufacturer.

The hinge hole 37 provided on the upper side of the supporting frame 60 can be freely selected from a middle height to an upper end of the supporting frame 60 according to the purpose of the user or the manufacturer.

A lower support frame 60a having a supporting frame 60 extending integrally to a lower side of the lower module frame 13 of the solar cell module 100 and a lower support frame 60a extending through the lower end of the installation fixing frame 55 from the front to the rear The pile fixing plate 28 provided with the above-described pile hole 29 may be fixed to the pile hole 45 by welding means or bolt means.

The pile fixing plate 28 may be integrally formed by welding means on the lower support table 60a, the fixing frame 55 and the support table 25 or may be tightened by bolt means.

The pile fixing plate 28 may be fixed by a hinge means which is folded on the lower support table 60a, the installation fixing frame 55, and the support table end 25.

The pile fixing plate 28 may be configured to rotate about the bolt shaft and the hinge shaft at the lower support table 60a, the fixing frame 55, and the support table 25.

The hinge part provided at the upper end of the supporting frame 60 and the fixing frame 55 described above is used as a hinge technique used in a conventional industrial field, such as a scissors hinge technique, a forceps hinge technique, a hinge technique of a mobile sign The present invention provides a simple construction solar module unit that can be easily installed and collected by applying the solar cell module 100. [

Hereinafter, the installation fixed frame 140 and the simple construction solar module 320 will be described with reference to p and q in FIG.

The simple construction solar module 320 is the same as the simple construction solar module 310 described above and will be described later.

The support frame 60 is disposed on the left and right sides of the installation stationary frame 140 so as to form the assembly hollow section 63 in which the solar cell module 100 is inserted and fixed, A reinforcing frame 65 connected to the support frame 60 is formed in a rectangular shape.

The assembly frame section 63 of the installation stationary frame 140 corresponds to the solar cell module 100 to be inserted so that the insertion is tight and the module frame 13 of the solar cell module 100 And a nut hole 61 corresponding to the fixing hole 16, which is formed to penetrate from the outside to the inside.

The supporting frame 60 is formed on both sides of the solar cell module 100,

The fixing holes 16 are also provided on the side portions of the module frame 13 above and below the solar cell module 100.

The reinforcing frame 64 is fixed to the module frame 13 above the solar cell module 100 by bolt means.

The reinforcing frame 65 is fixed to the side of the lower module frame 13 of the solar cell module 100 by bolt means.

That is, in the simple construction solar module 320, a reinforcing frame 64 is provided at an upper end portion between two of the support frame 60 and a reinforcing frame 65 is provided at a lower portion thereof. Assembly.

The size of the assembly hole portion 63 having the reinforcing frame 64 at the upper end and the reinforcing frame 65 at the lower portion between the two of the support frame 60 is larger than the size of the outer edge of the solar cell module 100 And the lower frame 60a is integrally extended from the lower frame 60 in the lower direction of the reinforcing frame 65 so that the solar cell module 100 is spaced apart from the ground at a predetermined distance .

The length of the lower support 60a can be freely selected from 10 cm to 100 cm.

When the length of the lower support table 60a is short, the muddy water may contaminate the solar cell module 100 when the rain comes, and when the length of the lower support table 60a is long, the wind resistance increases. to be.

The solar cell module 100 is inserted into the assembly hollow section 63 and the bolt means is inserted into the fixing hole 15 provided on the side surface of the module frame 13 of the solar cell module 100 to form the support frame 60, The frame 64 and the reinforcing frame 65 are fastened to the nut holes 61 formed on the inner side surfaces thereof to constitute the simple construction solar module 320.

The mounting and fixing frame 55, the support frame 60, the reinforcing frame 64, and the reinforcing frame 65 may be hollow pipe means.

The mounting fixing frame 55, the supporting frame 60, the reinforcing frame 64, and the reinforcing frame 65 may be frame means of a solid shape.

The mounting and fixing frame 55, the support frame 60, the reinforcing frame 64, and the reinforcing frame 65 are square-shaped members.

The mounting fixing frame 55, the supporting frame 60, the reinforcing frame 64, and the reinforcing frame 65 may be polygonal frame means including a circle.

The installation fixed frame 140 and the simple installation photovoltaic module 330 will now be described with reference to r, s in FIG.

In FIG. 7, the mounting fixing frame 140 does not fix the solar cell module 100 by inserting the solar cell module 100 into the assembly hollow section 63.

The outer size of the rectangular frame means of the left and right frame 60 and the reinforcing frame 64 and the reinforcing frame 65 of the mounting fixing frame 140 corresponds to the outer frame size of the solar cell module 100 The rear surface of the module frame 13 of the solar cell module 100 is put on the front surfaces of the left and right support frames 60 and the reinforcing frame 64 and the reinforcing frame 65 of the mounting and fixing frame 140, The rear surface of the module frame 13 of the solar cell module 100 is attached to the nut holes 61 provided in the front surfaces of the left and right support frame 60 and the reinforcing frame 64 and the reinforcing frame 65 of the frame 140 And a bolt is screwed into the fixing hole 16 of the solar cell module 200 and fixed by screw assembly to constitute the simple construction solar module 330.

Although not shown in the drawing, the supporting frame 60 is a pipe and an opening portion is provided at an upper end so that the mounting and fixing frame 55 is inserted into the inner space of the supporting frame 60, As shown in Fig.

Alternatively, the mounting frame 55 may be inserted into the inner space of the reinforcing frame 64 by placing the reinforcing frame 64 as a pipe means on both sides of the mounting frame 55, so that the mounting frame 55 can be taken out and assembled .

8, the installation fixed frame 150 and the simple installation solar module 340 will be described.

The mounting fixing frame 150 is integrally formed with a hinge insertion frame 66 having a hinge hole 37 penetrating sideways on one side of the upper end of the upper end of the supporting frame 60, And a hinge hole 48 through which the hinge insertion frame 66 is inserted to the side is provided.

The hinge insertion frame 66 of the supporting frame 60 is inserted into the hinge insertion groove 56 of the mounting fixing frame 55 so that the hinge hole 37 and the hinge hole 48 are aligned on the same line and the hinge shaft 49 Are assembled together to constitute an installation fixed frame 150.

The module frame 13 of the solar cell module 100 is fixed on the side surface of the solar cell module 100 in a nut hole 61 provided on the side of the supporting frame 60 of the mounting frame 150. [ And a bolt is inserted and fixed by a hole 16 to constitute a simple construction solar module 340.

The simple installation solar module 340 can cause the mounting fixing frame 55 to closely contact the rear surface of the supporting frame 60 with the hinge shaft 49 as the center of rotation or can open more than 180 degrees.

In the present invention, the simple installation solar module 340 is shown with the installation fixed frame 55 being opened at 100 degrees.

9, the installation fixed frame 160 and the simple installation solar module 350 will be described.

The installation stationary frame 160 is provided with a hinge insertion frame 66 at one side of the upper end of the upper end of the support frame 60 rather than at the upper end side of the support frame 60 in the above- The hinge inserting groove 56 provided at the upper end of the hinge shaft 55 is fitted into the hinge inserting frame 66 and the hinge hole 37 and the hinge hole 48 are aligned with the same line, Thereby constituting an installation fixed frame 160. [

The hinge inserting frame 66 of the mounting fixing frame 160 is integrally formed at the middle portion and both ends of the reinforcing frame 64 and the fixing frame 55 is assembled as described above, 64, respectively.

The solar cell module 100 is inserted into the assembly hollow portion 63 of the mounting fixing frame 160 and the bolt means is inserted into the fixing hole 16 of the module frame 13 of the solar cell module 100, The fastening frame 64 and the reinforcing frame 65 are screwed into the nut holes 61 to construct the simple construction photovoltaic module 350.

 Instead of the structure of the hinge insertion groove 56 and the hinge insertion frame 66 in the installation fixed frame 150 of the simple construction solar module 340 and the installation fixed frame 160 of the simple construction solar module 350 It can be replaced by a hinge means called a plate type hinge.

In other words, in order to make the pin grooves correspond to the same line, two pieces of the metal plate are inserted into each other except for the end portion of the metal plate. A hinge means in the form of a fitting plate is provided so that it is used as a hinge in daily life when the door is opened and closed.

The plate-shaped hinge means may be connected to one side of the upper end face of the supporting frame 60 and one side of the upper end face of the mounting fixing frame 55 to be used as a hinge.

Another type of hinge means will be described.

Instead of the structure of the hinge insertion groove 56 and the hinge insertion frame 66, a warp material and a tough material can be used.

That is, it is noted that the rubber plate, the plate type plastics, the kind of the woven cloth and the like may be cut to a certain size and used as the hinge means by being connected to the upper end of the rear fixing surface of the fixing frame 55 and the supporting frame 60.

In the above description, the holding frame 60, the reinforcing frame 64, and the reinforcing frame 65 may be formed of polygonal frame means including a circle, and may be solid-shaped frame means filled with the inside, Lt; / RTI >

A method of replacing the structure of the lower support table 60a in which the support frame 60 is integrally extended to the lower side of the boundary of the reinforcing frame 65 in the above-mentioned support frame 60, A lower frame 60a provided on the lower frame 60a can be inserted into the inner space of the frame 60. The frame frame 60 can be pulled out when it is used and fixed to a predetermined length by bolt means, The distance that the solar cell module 100 is separated from the ground surface can be adjusted.

In addition, the side frame of the support frame 60 is slidably provided with a means capable of serving as a separate lower support table 60a, So that the object can be achieved.

Hereinafter, the supporting frame 170, the mounting fixing frame 180, and the simple construction solar cell module 380 will be described at x and y in FIG.

The supporting frame 170 is a supporting frame to be fixed to the side of the module frame 13 in the lower part of the solar cell module 100.

 The reinforcing frame 65a having a length corresponding to the left and right lengths of the solar cell module 100 corresponds to the fixing hole 15 provided on the side surface of the module frame 13 of the solar cell module 100 A nut hole 61 is provided.

A lower support table 24a is assembled or integrally provided at both lower edges of the reinforcing frame 65a and a pile hole 45 or a pile fixing plate 28 is provided at one side of the lower end of the lower support table 24a.

The support frame 170 is assembled to the lower part of the solar cell module 100. [

The mounting fixing frame 180 is a supporting frame fixed to the side of the module frame 13 on the upper part of the solar cell module 100.

The reinforcing frame 64a having a length corresponding to the left and right lengths of the solar cell module 100 corresponds to the fixing hole 15 provided on the side surface of the module frame 13 of the solar cell module 100, A nut hole 61 is provided.

Nut holes are provided on both side surfaces of the reinforcing frame 64a and hinge holes provided on the upper end of the mounting and fixing frame 55 are aligned on the same line and the hinge shaft 49 is assembled to complete the mounting fixing frame 180 .

A simple installation solar cell module 360 is constructed by assembling an installation fixing frame 180 at the upper end of the solar cell module 100.

Hereinafter, the support frame 190 and the simple construction solar cell module 370 will be described with reference to z and A in Fig.

The support frame 190 is provided so that the lower support 24a of the support frame 170 is replaced with the lower support 24b in the simple construction solar cell module 360 described above.

The lower support table 24b may have a pile shape with a sharp bottom end.

That is, the reinforcing frame 65a provided with the lower support 24b is assembled to the side of the lower module frame 13 of the solar cell module 100, and the side surface of the upper module frame 13 of the solar cell module 100 Assembled solar cell module 370 by assembling the mounting and fixing frame 180 to the solar cell module 370.

Hereinafter, the support frame 200 and the simple construction solar cell module 380 will be described in FIGS. 12B and 12C.

The support frame 200 is provided with nut holes 61 arranged on the upper side of the support frame 200 so as to be fixed to the side of the module frame 13 at the lower part of the solar cell module 100.

The supporting frame 200 is provided in a plate shape, and the length of both side surfaces corresponds to the length of both side surfaces of the solar cell module 100, and the height of the upper and lower portions is selected from the range of 10 cm to 1M .

A pile hole 45 penetrating upward and downward at a lower portion of the support frame 200 or a pile fixing plate 28 having a pile hole 29 may be provided.

The support frame 200 is assembled to the side surface of the lower module frame 13 of the solar cell module 100 and the installation frame 180 is assembled to the side surface of the upper module frame 13 of the solar cell module 100, The construction solar cell module 380 is constructed and used.

The simple construction solar cell module 390 will be described below with reference to FIGS.

The upper module frame 13 of the solar cell module 100 is assembled to the nut hole 61 provided on the upper surface of the reinforcing frame 64a of the mounting and fixing frame 180, The simple construction solar cell module 390 can be constructed by assembling bolts to the nut holes 61 provided on the upper upper surface of the support frame 200 on the back surface of the frame 13. [

The mounting fixed frame 210 and the simple construction solar cell module 400 will be described below with reference to FIGS.

And is assembled to the side of the lower module frame 13 of the solar cell module 100 by bolt means to the nut hole 61 provided on the upper side of the lower support 24a.

That is, the lower support rods 24a are directly fixed to the side surfaces of the lower module frames 13 on both sides of the solar cell module 100.

The side surface module frames 13 of the solar cell module 100 are provided with fixing holes 15 on the upper side surfaces thereof.

A hinge recess 59 is formed at an upper portion of the mounting fixing frame 55 so that the height thereof is lowered. A hinge hole 48 is provided at the center of the hinge recess 59.

A hinge groove 59 is formed at a lower portion of the separate hinge frame 58 and has a hinge hole 48 at the center thereof.

The hinge groove 59 of the mounting fixing frame 55 and the hinge groove 59 of the hinge frame 58 are assembled together to form a single hinge hole 48 at the center thereof, (49).

The hinge frame 58 of the mounting fixing frame 210 is brought into close contact with the upper end side surface of the solar cell module 100 and is inserted into the fixing hole 15 of the side surface of the module frame 13 of the solar cell module 100 by bolt means And fastened to the nut hole 61 provided on the side surface of the hinge frame 58 to constitute a simple construction solar cell module 400.

Hereinafter, the support frame 220 and the simple construction solar cell module 410 will be described in H and J of FIG.

The supporting frame 220 which can be installed on the side surface of the lower module frame 13 of the solar cell module 100 is mounted on the upper side of the reinforcing frame 65d having a length of about 10 cm to 20 cm, A nut hole 61 is provided in the module frame 13 at the lower part of the module frame 13 so that the module frame 13 can be assembled by bolt means.

The lower frame 24a is integrally assembled from the lower middle portion of the reinforcing frame 65d so that the frame frame 220 is formed.

The support frame 220 may be assembled on both sides of the side surface of the lower module frame 13 of the solar cell module 100 and may be provided in the intermediate portion as necessary.

Assembled on the back surface of the module frame 13 on both sides of the upper surface of the solar cell module 100 in the nut holes 61 provided on the upper surface of the hinge frame 58 of the installation fixing frame 210, ).

Hereinafter, the simple construction solar cell module 420 will be described with reference to K and L in FIG.

K is a partial cross-sectional view of a conventional solar cell module 100.

The edge of the solar cell module 100 is bonded to the module frame 13 by a silicone adhesive.

The fixing plate 14 of the module module frame 13 of the conventional solar cell module 100 is provided with fixing holes 15 arranged at regular intervals.

Fixing holes 15 are also arranged at regular intervals on the side surface of the module frame 13 as required.

In the drawing L, the left and right module frames 13 of the solar cell module 100 are elongated and the upper module frame 13 is aligned with the upper portions of the left and right module frames 13 of the solar cell module 100, The module frame 13 of the lower module frame 13 is provided between the left and right module frames 13 so that the left and right module frames 13 of the lower module frame 13 are elongated, So that it can be modularized so that it can be used as a fixed support.

It is possible to construct the simple construction solar cell module 420 by assembling the mounting and fixing frame 210 on the upper end side of the module frame 13 on the left and right sides of the solar cell module 100 provided with the lower support part 13a have.

Hereinafter, the simple construction solar cell module 430 will be described in M and N of FIG.

K is a partial cross-sectional view of a conventional solar cell module 100.

The edge of the solar cell module 100 is bonded to the module frame 13 by a silicone adhesive.

The cross section of the module frame 13 of the solar cell module 100 has a rectangular shape and the fixing holes 15 can be formed on each side of the square surface as required.

In the drawing N, the left and right module frames 13 of the solar cell module 100 are elongated and the upper module frame 13 is aligned with the upper portions of the left and right module frames 13 of the solar cell module 100, The module frame 13 of the lower module frame 13 is provided between the left and right module frames 13 so that the left and right module frames 13 of the lower module frame 13 are elongated, And a fixing plate 39 is formed by a hinge part assembled with a hinge shaft 49 at an end thereof.

The fixing plate 39 constitutes a mounting and fixing frame 210 on the upper end side of the module frames 13 on the left and right sides of the solar cell module 100 provided with the lower support part 13a and a hinge shaft 49 which is connected to the fixing plate 39a and is provided with a pile hole 45 passing through the fixing plate 39a and is mounted on the fixing plate 39 and is provided with a nut hole (45a) by bolt means.

That is, the fixing plate 39 is connected to the lower supporting table 13a by the hinge means and is placed under the fixing plate 39a connected to the end of the fixing frame 55 by the hinge means, and can be fixed by bolt means.

The fixing plate 39 is made of a thin metal plate, a plastic plate, or a frame.

The fixing plates 39 are arranged at regular intervals inward from the end portions,

The bolts fixed to the fixing plate 39a and the fixing plate 39 are unscrewed and assembled to the nut holes 45a having different intervals in order to change the angle of the solar cell module 100 according to the angle of the sunlight of each season, So that the angle of the solar cell module 100 can be adjusted.

The simple construction solar cell module 430 is capable of mounting and fixing the soil on the fixing plate 39 or a plurality of pile holes 45 penetrating through the fixing plate 39 and being fixed to the ground with pile means .

When the pile hole 45 provided in the fixed plate 39 is provided on the ground with a pile means, the fixed plate 39 can be constituted by frame means having a small width,

The width of the fixing plate 39 can be increased when the soil is placed on the fixing plate 39 and fixed with the weight.

Hereinafter, the simple construction solar cell module 440 will be described with reference to P and Q in Fig.

Plot P shows a partial cross-sectional view of the solar cell module 100.

The module frame 13 having a square shape is attached to the front glass with EVA resin and has ends corresponding to the height of the solar cell 10 provided up to the wiring and the back sheet means on the back surface, The solar cell module 100 can be modularized by wrapping the edge of the solar cell module 10 with an adhesive agent or sealing rubber so as to cover the cover plate 9 and tighten it with the bolt means 8.

The cross section of the module frame 13 of the solar cell module 100 has a rectangular shape and the fixing holes 15 can be formed on each side of the square surface as required.

In the drawing Q, the left and right module frames 13 of the solar cell module 100 are elongated and the upper module frame 13 is aligned with the upper portions of the left and right module frames 13 of the solar cell module 100, The module frame 13 of the lower module frame 13 is provided between the left and right module frames 13 so that the left and right module frames 13 of the lower module frame 13 are elongated, So that it can be modularized.

A simple installation solar cell module 440 can be constructed by assembling the installation and fixing frame 220 on the upper end side of the module frame 13 on the left and right sides of the solar cell module 100 provided with the lower support part 13a have.

The mounting fixing frame 220 includes a mounting fixing frame 54, a pie unit having an internal space part, and an installation fixing frame 55 inserted in the internal space part.

The mounting fixing frame 54 and the mounting fixing frame 55 are formed by arranging the bolt holes passing through the mounting fixing frame 54 at the same interval, and are used for adjusting the interval of the solar cell module 100.

A simple installation solar cell module 440 is formed by fixing to a fixing plate 39b connected and fixed to a lower portion of the installation fixing frame 54 by a hinge shaft 49. [

That is, the mounting fixing frame 54 and the mounting fixing frame 55 are fixed to the angle adjusting hole 54a and the angle adjusting hole 55a by fixing bolts 53, The angle of the solar cell module 100 can be adjusted by adjusting the assembled length of the frame 55 so that it can be adjusted according to the height of the four seasons sunlight

And the soil is sufficiently heavily covered with the fixing plate 39b and fixed.

The fixing plate 39b can be applied to the supporting means of all the solar cell modules described above including the lower supporting table 13a, the fixing frame 55 and the fixing frame 54. [

The fixing plate 39b may be formed into a narrow frame when the pile means is fixed to the fixing plate 39b by piling the pile means on the ground,

When the fixing plate (39b) is covered with the ground and fixed with the weight, it is possible to make a wide width so that a lot of soil can be raised.

16, 17 and 18, the module frame 13 may have a rectangular cross section, a polygonal cross section including a circular cross section, a cross section of a free cross section, a hollow cross section, It can be configured as a solid solid.

16, 17, and 18, the module frame 13 is formed by extrusion of an aluminum material, and may be formed by extrusion of plastics.

In addition, it can be made by metal rolling process, metal plate folding, metal casting.

The method of adjusting the angle of the solar cell module 100 in the simple construction solar cell module 430 and the simple construction solar cell module 440 described above is not limited to the simple construction solar cell module 300 described in the present invention, And the solar cell module 440.

The mounting fixed frame 230 and the simple construction solar cell module 450 will now be described in R, S, and T of FIG.

The mounting fixing frame 230 has left and right supporting frames 60 and a reinforcing frame 64 at an upper end portion and a reinforcing frame 65 at a lower end portion thereof in a quadrangular shape to correspond to a rectangular shape of the solar cell module 100, The solar cell module 100 is inserted into or assembled with the reinforcing frame 64 at the upper end and the reinforcing frame 65 at the lower end,

Alternatively, the solar cell module 100 may be mounted on the supporting frame 60, the reinforcing frame 64 at the upper end portion thereof, and the reinforcing frame 65 at the lower end portion thereof, And the reinforcing frame 64 at the upper end and the rectangular shape of the reinforcing frame 65 at the lower end.

A high strut 33 is fixed vertically on both sides of the supporting frame 60 and the reinforcing frame 64 at the upper end and the reinforcing frame 65 at the lower end in a rectangular shape of the reinforcing frame 65 at the lower end

On both sides of the reinforcing frame 65, a lower support 34 is vertically fixed to constitute an installation fixing frame 230.

The mounting frame 230 has a high support 33 on both sides of the reinforcement frame 64,

On both sides of the reinforcing frame 65, the supporting frame 60 is formed by a difference in height of the lower supporting members 34

The polar angle can be fixed at any angle within a range of about 20 to 60 degrees with respect to the horizontal plane of the paper.

Is illustrated and described at 40 degrees in the present invention.

The solar cell module 100 is assembled on the supporting frame 60 and the reinforcing frame 64 at the upper end portion and the reinforcing frame 65 at the lower end portion to construct the simple construction solar cell module 450.

Simple Construction A pile fixing plate 28 provided with a pile hole 29 is integrally provided at the lower portion of the high column 33 and the low column 34 of the solar cell module 450.

A reinforcing frame is provided on the module frame 13 at the lower part of the solar cell module 100 and a supporting means is provided at one end of the reinforcing frame to be connected to and fixed to the ground.

Hereinafter, the composite installation frame 240 and the simple construction solar cell module 460 will be described in U and V of FIG.

In the description of the simple solar cell module 460, the joint portions are denoted by W, X, and Y to enlarge and illustrate.

The holding frame 60b is provided with a U-shaped frame to start the internal space portion 60c.

The supporting frame 60b is provided with a nut hole 61 on one outer wall and is configured to correspond to a fixing hole formed on a side surface of the module frame 13 on both side surfaces of the solar cell module 100. [

 The supporting frame 60b is formed with a pile 23 having a hinge hole at its lower end and fixed by a hinge shaft 49 so as to be inserted into the internal space portion 60c and accommodated therein and being perpendicular to the supporting frame 60b So that it can be positioned.

A hinge hole is provided at the upper end of the supporting frame 60b and is fixed to the hinge shaft 49

The mounting fixing frame 55b may be configured to be inserted into the inner space portion 60c to be accommodated therein and to be vertically positioned with respect to the supporting frame 60b.

That is, the pile 23 can be inserted into the inner space portion 60c at the lower side of the supporting frame 60b, and the upper and lower fixing frames 55b can be inserted into the inner space portion 60c, (23) and the mounting fixing frame (55b) are held close to each other without interference.

The mounting fixing frame 55 has a U-shaped shape and has a hinge hole at the other end thereof, and a pile 23 is formed by a hinge shaft 49 and inserted and stored in the internal space portion 55c.

That is, the pile 23 formed in the mounting fixed frame 55b is housed in the internal space portion 55c and constitutes a composite installation frame 240 which is inserted and stored in the internal space portion 60c of the support frame 60b .

The combined installation frame 240 is fixed to the both side module frames 13 of the solar cell module 100 by means of bolts to constitute a simple construction solar cell module 460.

In FIG. 21, Z shows that the pivot 23 is folded in the installation fixed frame 55b of the simple construction solar cell module 460 and housed in the internal space portion 55c and the pile 23 is folded in the pillar frame 60b And housed in the inner space portion 60c.

a and b show enlarged views of the joints.

And Fig. C is a perspective view in which the mounting fixing frame 55b is folded at the supporting frame 60b.

The figure d shows the enlarged view of the joint region.

In Fig. 22E, the mounting fixed frame 55b is seen folded into the inner space portion 60c of the supporting frame 60b.

In the drawing, f and g are enlarged views of joint regions.

In FIG. 5H, the installation frame 55b is opened at about 80 degrees from the support frame 60b of the simple construction solar cell module 460 and the piles 23 are opened.

FIG. 3 is an enlarged view of a portion of the pile 23. FIG.

23A is a view showing an example of use in the side of the simple construction solar cell module 460 in FIG.

The pillar 23 is pinched and fixed to the front side of the answer by fitting the pillar frame 60b fixing the solar cell module 100 to the fixed mounting frame 55b so as to match the sunlight fixed installation angle .

In FIG. 23, the simple construction solar cell module 470 shown in FIG. 23 shows that a substantially square-shaped holding frame 60e of the U-shaped holding frame 60b can be used.

Hereinafter, the simple construction solar cell module 480 will be described with reference to p and q in FIG.

The front module plate 80 and the back plate 82 provided with the solar cell module 100 are aligned at an upper portion and opened at a lower angle within an angle of about 80 to 150 degrees.

In the present invention, an angle of 100 degrees is shown and described.

And the solar cell module 480 is constructed by assembling the solar cell module 480 with the side plate 84 on both sides by bolt means or integrally.

The front module board (80) is provided with a support frame at the bottom and a lower portion is provided at the left and right than at the upper portion.

The front module board 80 is formed integrally with the solar cell module 100 at the upper side of the lower support frame.

Two or more pile holes 45 are formed through the lower end portion of the lower support frame of the front module plate 80.

The size of the rear plate 82 corresponds to the size of the front module plate 80.

Two or more pile holes (45) penetrate the lower end of the back plate (82).

The side plate 84 of triangular shape is covered and fixed on both side surfaces of the front module plate 80 and the back plate 82. [

The front module plate 80 and the rear plate 82 are narrow in the upper part and the width of the lower part is larger than the upper part so that the side plate 84 is not vertically assembled and the lower part is slanted out, The inner space portion of the solar cell module 480 is wide and the top portion is narrow, so that a plurality of simple construction solar cell modules 480 can be stacked or stacked and moved.

The simple construction solar cell module 490 will be described below with reference to Fig.

The simple construction solar cell module 490 in which the size of the width of the upper portion of the front module plate 80 and the size of the width of the lower portion of the rear plate 82 are the same and the side plate 84 is vertically assembled on the side, Simple construction There is no merit that the solar cell module 490 can be stacked or moved.

25, the simple construction solar cell module 500 divides the middle portion of the side plate 84 vertically in the structure of the simple construction solar cell module 480 and the simple construction solar cell module 490 described above, 88) and folded inward.

Also, the connection with the front module board 80 to which the side plate 84 is connected is also connected by the hinge means, and the connection with the back plate 82 is also connected by the hinge means.

Further, the connection is also connected by the hinge means at the upper part of the front module board 80 and the rear board 82.

When the both side plates 84 are inwardly folded, the respective side plates 84 are completely folded inwardly as the respective hinge means are folded so that the front module plate 80 and the back plate 82 It has the advantage that it can be folded and collapsed so that it can be stacked and moved.

In the simple construction solar cell module 500, the rear plate 82 and the side plate 84 can be used as a thin plate type of PCs of the plastic type PVC type, and the hinge means 88 can be made to function as a hinge by providing a folding portion of the PVC-type thin plate means of the plastic of the plastic type.

Alternatively, the hinge means 88 may attach a tape adhesive so that the tape adhesive can act as a hinge.

Alternatively, the hinge means 88 may be made of rubber, silicone, woven fabric or the like.

Hereinafter, the folding type solar cell module 510 will be described at t and v in FIG.

The front module plate 80 and the rear plate 82 can be connected to each other by a hinge 47,

The wheel fixing frame 50 is fixed to the lower side of the front module plate 80 and the rear plate 82 by the hinge shaft 49 from both sides so that the hinge shaft 49 can be folded about the hinge shaft 49,

And a wheel means 52 is provided below the wheel fixing frame 50.

A plurality of front module boards 80 and a rear board 82 are connected to each other by a hinge shaft 49 at the upper portion of the wheel fixing frame 50 and the front module board 80 and the back board 82 The folding type solar cell module 510 constructed by connecting the folding type solar cell module 510 with the hinge 47 has a structure in which a plurality of solar cell modules are folded and stored and then expanded so that each front module plate 80 can be rotated at an angle .

The foldable solar cell module 510 can be folded or unfolded by the lower wheel means 52. The foldable solar cell module 510 can be folded or unfolded with a smooth surface or a concrete floor or an asphalt floor. There is mobility.

The folding solar cell module (510) can accomplish the purpose of development by repeatedly performing the operation of folding the solar cell in the morning by spreading in the morning to the yard of the house, the yard of the hall, .

Further, the foldable solar cell module 510 is installed on the north side facing the south side of the discussion to the south side.

The pipe means is installed to the south side while being planted in the rice farming machine by means of mechanical means, and the position is connected to the wheel means 52 of the foldable solar cell module 510.

In addition, the wheel means 52 may be provided with a circular groove means on the outside so that the wheel means 52 can be rolled up on the circular pipe so that the wheel means 52 can be rolled over the pipe by using the pipe means as a guide.

Fold the foldable solar module (510) for several hours a day to make solar power and fold it back so that the sunlight shines on the crops.

In other words, sunlight and crops are used to share sunlight during the day.

27, an example in which the simple construction solar module means using the pipe means can be installed will be described.

The various simple construction solar module modules described above with reference to FIGS. 1 to 25 can be installed by using a pipe means when installing the solar module module, and a simple construction solar module 320 will be described as an example.

The pipe 90 may be a scaffold pipe used in a construction site.

The pipe 90 may be a house pipe used in agriculture.

The pipes 90 intersect with each other in a lattice shape and are fixed with a cram where they intersect.

Construction and agricultural pipes (90) all have clips and are easy to use.

The pipes 90 are arranged at regular intervals in a grid shape and the intersections are fixed with clips to provide a sturdy structure.

The lower part of the supporting frame 60 of the simple construction solar module 320 is fixed to the pipe 90 by the clip means.

That is, when the pipes 90 are arranged in a lattice shape, they are arranged in accordance with the installation interval of the simple installation solar modules 320 and used.

When all of the simple construction solar modules 320 are connected to the pipe 90, all the arranged and fixed pipes 90 are integrated with each other to form a single structure, so that the wind-resistant force becomes strong, May not be stuck to the lower end of the strut frame 60 of the simple construction solar module 320.

It is possible to easily dismantle the clip when it becomes a farming iron, and the pipe 90 can be easily handled and stored.

Another example of installation using the pipe 90 in Fig. 28 will be described.

The pipe means are arranged at regular intervals and are arranged in two lines, another pipe means is arranged in the transverse direction on the pipe means, and the pipe means is fixed by the clip means so that the pipe itself is structured and can withstand the wind.

The front angle frame 92 and the back angle frame 93k are assembled at a certain angle and the lower portion thereof is fixed by a clip of a grid-like pipe 90, and the front angle frame 92 and the back angle frame 93k are separately And the other angled front angle frame 92 and rear angle frame 93k are connected to the pipe 90 of the frame 90 so as to securely fix the structure.

The front angle frame 92 is fixed at the same angle as the desired sunlight installation angle.

The lower fixing frame 94 connecting the front angle frames 92 fixed at predetermined intervals is installed and fixed at a predetermined interval in the lower part of the front angle frame 92 to fix the solar cell module 100, Is inserted and fixed in the fitting groove of the lower fixing frame 94. [0064] As shown in Fig.

The lower fixing frame 94 is spaced at a predetermined distance from the lower portion of the front angle frame 92 so that the muddy water splashes on the rainwater and the height of the solar cell module 100 does not protrude. have.

The intermediate fixing frame 95 is fixed to the intermediate position between the outside and outside of the upper and lower fixing frames 94 of the front angle frame 92.

The solar cell module 100 is arranged on the lower fixed frame 94 and the intermediate fixed frame 95 and fixed by bolt means.

The module frame 13 at the upper part of the solar cell module 100 is inserted into the upper fixing frame 96 at the upper end of the front angle frame 92 and secured to the front angle frame 92, ).

The lower fixing frame 94, the intermediate fixing frame 95, and the upper fixing frame 96 are screwed to the front angle frame 92 by means of a piece.

Although the lower fixed frame 94 and the upper fixed frame 96 may be formed as flat frames, the solar cell module 100 is provided with groove means through which the lower and upper outer module frames 13 can be inserted .

The intermediate fixed frame 95 is a flat frame.

Each simple construction solar cell module of the present invention is provided with a vinyl means in advance in the paddy, and each simple construction solar cell module is installed thereon, thereby reducing pollution of the wind and the soil that splashes when it rains.

This will be described below with reference to z and A in Fig.

The lower fixed frame 94, the intermediate fixed frame 95, and the upper fixed frame 96 of FIG. 28 may have a generally fixed frame 97.

A hole means or a nut hole means corresponding to the fixing hole 15 provided on the back surface of the module frame 13 of the solar cell module 100 may be provided in the fixing frame 97 and screwed and fixed by bolt means .

The fixed frame 97 is a C-shaped frame used in a conventional solar cell installation process.

The fixed frame 97 may also be a circular frame including square pipe means, a b-shaped frame, and a flat frame.

30, B, C, and D, respectively.

The block 8 is secured between the lower pipe 90 and the ground, among the means of the pipe 90, which is arranged in a lattice shape on the ground of the answer.

Since the height of the block 8 should be such that the muddy water on the surface of the solar cell module 100 is not contaminated, the block 8 of 10 cm to 50 cm may be used, and the height of the block 8 may be increased when necessary.

The block may use a conventionally used concrete block.

The fixed frame 91 is arranged and fixed on the pipes 90 arranged at the upper side among the fixed pipe 90 arranged in a lattice shape at regular intervals.

The fixing frame 91 constitutes an angle and an angle corresponding to the angle of the back surface of the module frame 13 and the corresponding angle of the fixing hole 15 when the solar cell module 100 is located at the angle of sunlight .

모양을 갖는다.The stationary frame 91 has a U-shaped cross-section, in which the upper frame is bent upward,

Shape.

That is, the fixed frame 91 has a U-shape with a vertical frame 91b connecting the lower horizontal frame 91a to the upper horizontal frame 91c and is bent upward at the middle portion of the upper horizontal frame 91c And a fixed angle frame 91d.

The fixed angle frame 91d shown in the present invention is shown by being bent at 40 degrees and its angle can be selected in the range of 10 degrees to 80 degrees when manufactured.

And is fixed to the fixed angle frame 91d of the fixed frame 91 by the bolt means on the rear surface of the module frame 13 under the solar cell module 100. [

The solar cell module 100 is fixed in the same manner as the solar cell module 100 from the lower portion of the back plate 82 fixed by the hinge means 88 at the upper end of the solar cell module 100 to the stationary frame 91, ) Can be held at a constant angle.

The above-described method has a feature that the conventional solar cell module 100 can be easily installed at a solar power generating angle and is installed at a low cost.

The fixed frame 91 may be a polygonal pipe means including a circular pipe and a square pipe.

모양을 갖는 수단을 도 29에서 설명된 고정프레임(97)의 대체 수단으로 사용할 수있다.The fixed frame 91 described in the above-described Fig. 30 is a U-shaped frame in which the upper frame is bent upward,

Shape can be used as an alternative means of the fixed frame 97 described in Fig.

In the above description, instead of the frame means assembled on the floor of the discussion in the form of a grid of pipes 90,

A circular pipe means or a square pipe means may be arranged at regular intervals and assembled by means of a clip means in advance to form a bottom frame module means of a certain size.

Or circular pipe means or square pipe means can be cut out to a certain size and arranged in a lattice shape and welded by welding means to make a certain size of the bottom frame module means.

The above-mentioned bottom frame module means is placed on the floor by using heavy equipment such as forklift, tractor, crane, crane, and the like, and is used.

The bottom floor module means may be horizontally fixed to the floor as in the discussion, and the angle frame means may be assembled separately thereon to assemble the solar module.

The floor frame module means may be constructed such that a column frame having a different size at the lower portion thereof is assembled and positioned at a solar module installation angle.

That is, the lower frame frame may be assembled to the lower floor frame at the bottom of the bottom frame module means, and the rear frame frame may be assembled to provide the angle of the bottom frame module means.

The above-described floor frame module means can be manufactured within a size that can be loaded on a heavy truck, and can be easily transported to a corresponding paddy and easily assembled to the paddy field by being made to be transportable by heavy equipment and heavy trucks, It becomes easy.

That is, the floor frame module means can be transported to the paddy, laid and angled, and then the solar module means can be assembled thereon to make a solar power plant.

The front frame 92 and the angular frame 93 are fixed on the frame and the frame 91 is fixed on the frame 91, the lower frame 94, the intermediate frame 95 ), An upper fixed frame 96, a fixed frame 97,

And the solar cell module can be arranged and fixed to make a solar power plant.

This will be described in FIG. 31E.

The front column pipe 92a and the back column pipe 93a are separated from each other and fixed to the pipe 90 arranged vertically and arranged in a lattice structure at the lower end by clip means.

The upper end of the front pillar pipe 92a and the rear pillar pipe 93a are different in height from each other so that the rear pillar pipe 93a is larger than the front pillar pipe 92a, The pipe 90 connecting the column pipe 92a, the back column pipe 93a, and the upper frame 98 is fixed by clip means.

A fixing frame 97 for fixing the solar cell module 100 is fixed on the upper frame 98 and the solar cell module 100 is fixed.

As shown in FIG. 31 F, it is not necessary to provide the pipe 90 in the form of a lattice at the lower end of the vertically erected front column pipe 92a and the rear column pipe 93a, but instead the front column pipe 92a, The reinforcing frame 99 connecting the front column pipe 92a and the rear column pipe 93a is fixed by the clip means so that the lower end portion of the back column pipe 93a can be fixed by being pushed onto the ground surface can do.

Concrete means are not used when the front column pipe 92a and the rear column pipe 93a are fixed to the front surface of the answer.

When farming starts, it must be pulled out and removed. Since it should not give any pollution to the answer, it does not use the conklee pedestal, so it is a clear difference from conventional solar cell installation method.

The pipe 90, the front column pipe 92a, the rear column pipe 93a, the upper frame 98, and the reinforcing frame 99 can be constituted by polygonal pipe means including circular pipe means and square pipe means .

It is also possible to fix the pipe 90, the front column pipe 92a, the back column pipe 93a, the upper frame 98 and the reinforcing frame 99 by means of the clip means in a manner of connecting and fixing them, It can be fixed by means or piece means, and it can be bundled and fixed by half life, which is a wire of soft and tough metal used in the construction site.

When half life of metal wire is used, the half life means can be used by galvanized zinc plating.

In other words, semi-life can be washed by a cleaning process, which is a pretreatment process used in the galvanizing industry, and galvanized plating can be used to produce an unoxidized half life.

In the case of the above half life, the name is the name used in the construction industry and refers to a metal wire with ductility and is used as a means to weave and fix construction materials and construction materials at the construction site.

28 to 31, the solar cell module 100 is configured such that the side surfaces of the module frame 13 are closely attached to or closely arranged with the side surfaces of the module frame 13 of the solar cell module 100, It can be utilized efficiently.

In Fig. 32, the supporting frame 520 and the simple construction solar cell module 521 will be described in G and H.

At the upper end of the pile frame 92c whose hollow is hollow and in which the lower end is started, a fixed plane 92d is provided in a circular shape and is started to have a size close to the inner diameter of the pile frame 92c toward the center of the fixed plane 92d And a bolt hole is arranged toward the edge so as to penetrate.

The lower end of the pile frame 92c is put on the floor of the place where the pile frame 92c is to be installed while holding and holding the fixed planetary gear 92d by the machine.

A diamond tip may be fixed to the lower end of the pile frame 92c in a place where there are many stones depending on the terrain of the place to be installed.

The diamond tip is a tool used to cut the stone by impregnating the diamond powder into the metal and impregnating the diamond with the tip of the rotary saw, which is used for cutting the stone.

When the pile frame 92c is put on the ground,

And is assembled with the fixed plate 93a provided at the lower end of the angle frame 93k.

A fixing hole is arranged at the edge of the fixed plate 93a and corresponds to that of the fixed plate 92d.

At the upper end of the angle frame 93k, an angle is formed at an angle corresponding to the fixed angle of sunlight, and the side-type fixed frame 62 is fixed at the same angle to constitute the strut frame 520. [

The nut holes 61 are arranged from the upper surface to the lower surface of the side type fixed frame 62 so as to be fixed to the fixing holes 15 of the module frame 13 of the solar cell module 100 by bolt means have.

The solar cell module 100 is fixed on the side-type fixing frame 62 by fixing the two supporting frames 520 at intervals corresponding to the length of the side surface of the solar cell module 100, ).

Or the stanchion frame 520 are arranged at regular intervals on the side and fixed to the ground surface, and the above-described fixed frame 91, lower fixed frame 94, upper fixed frame 96 The fixed frame 97, and the like, and the solar cell module 100 can be arranged and fixed thereon.

Hereinafter, the supporting frame 530 and the simple construction solar cell module 531 in K and L of FIG. 33 will be described.

A reinforcing frame 64a is provided at the upper end of the angle frame 93k in the pile frame 92c and the angle frame 93k provided with the above-described fixed planar surface 92d.

The reinforcing frame 64a corresponds to the length of the solar cell module 100 in the longitudinal direction and has a nut hole 61 on the upper surface thereof so as to be assembled on the rear surface of the module frame 13 in the longitudinal direction of the solar cell module 100 And constitute a strut frame 530.

The length of the angle frame 93k may be different from that of the holding frame 530. [

That is, when the two holding frames 530 are formed on the front and rear surfaces in the drawing L, the height of the reinforcing frame 64a of the front supporting frame 530 is set to be greater than the height of the reinforcing frame 530 of the rear supporting frame 530 The pillar frame 92c on the rear side of the pillar frame 530 on the front side and the pillar frame 530 on the rear side of the pillar frame 92c on the rear side are elongated Or the rear angle frame 93k is configured to be long, so that the object can be achieved.

In the present invention, the angle frame 93k is shown and described with a long configuration

The solar cell module 100 is fixed to the reinforcing frame 64a having different heights of the front and rear strut frames 530 in the L construction.

Hereinafter, the pillar frame 540 and the simple construction solar cell module 541 will be described in M and N in Fig.

The side-type fixing frame 62 and the reinforcing frame 64a are formed in a quadrangular shape corresponding to the size of the module frame 13 of the solar cell module 100 on four sides, A pile frame 92c provided with the fixing planes 92d described above at the intersections of the fixed frame 68 and the fixed frame 68, So that the holding frame 540 is formed.

The solar cell module 100 is assembled to the nut hole 61 provided on the side frame type fixing frame 62 and the reinforcing frame 64a of the strut frame 540 and the N simple construction solar cell module 541 is assembled .

The angle regulating plate 550 will be described below with reference to P in Fig.

The angle regulating plate 550 may be formed by a laser cutting process, a pressing process, a casting fixation, or the like.

A welding plate 71 provided integrally with the angle plate 70 is provided and the bent portion 74 is indicated by a dotted line therebetween.

The angle plate 70 is formed in the shape of a circular plate with a hinge hole 72 at the center thereof and a hinge hole 72 at the edge of the angle plate 70, 73 are penetrated.

The welding plate 71 integrally provided with the angle plate 70 has a diameter equal to the diameter of the outer periphery of the pile frame 92c which is a pipe means and is integrally formed with the angle plate 70 via the bent portion 74, And each of the angle plate 70 and the welding plate 71 has a circular size and the connecting portion is integrally connected to the welding plate 71 with a width related to the diameter of the welding plate 71 and is indicated by the bent portion 74.

And the welding plate 71 is welded to one end of the pile frame 92c by bending the bent portion 74 by a mechanical means at 90 degrees to constitute the angle adjusting post 551 as shown in Figs.

The angular plate 70 at the angle adjusting post 551 is configured to be perpendicular to the vertical direction of the pile frame 92c at the outer peripheral boundary off the center of the pile frame 92c.

The welding plate 71 and the angle plate 70 are separated separately and the welding plate 71 is welded to one end of the pile frame 92c and the angle plate 70 is placed at the center on the welding plate 71, The plate 70 may be formed at the center of the pile frame 92c.

In the drawing S, the angle plate 75 is provided with a hinge hole 72 of the angle plate 70 and an angle adjusting hole 73, and the entire outer shape is a circular plate shape, and the angle plate 75 And the bent portion 74 is indicated by a dotted line between the fixed portion 76 and the angle plate 75. [

A plurality of through holes 77 are arranged in the fixing part 76 and are provided corresponding to the fixing holes 15 provided on the back surfaces of both side surfaces of the module frame 13 of the solar cell module 100.

That is, the angle plate 75 is bent at 90 degrees from the bent portion 74 and is fixed to the back surface of both side surfaces of the module frame 13 of the solar cell module 100 and the fixing hole 77 penetrating through the fixing portion 76 And fixed to the fixing hole 15 by bolt means.

The hinge hole 72 of the angle plate 75 assembled to the solar cell module 100 and the angle adjusting hole 73 are arranged in the same line on the angle plate 70 of the angle adjusting post 551 as shown in FIG. The solar battery module 552 is assembled by inserting the hinge shaft 49 or bolt means into the hinge shaft 72 and assembling it with the angle adjusting hole 73 by bolts.

The simple construction solar cell module 552 is used as a means for inserting and fixing the pile frame 92c on the ground and turning the angle plate 70 and the angle plate 75 around the hinge hole 72, (73), it is possible to adjust efficiency corresponding to the four-season sunlight incident angle.

A separate frame may be formed under the solar cell module 100 and an angle plate 75 may be fixed to the frame.

When the solar cell module 100 is a crystalline solar cell module, the angle plate 75 can be adhesively fixed to the lower back sheet means by adhesive means including EVA resin.

When the solar cell module 100 is a thin film solar cell device using a thin film glass substrate, the angle plate 75 may be adhesively fixed to the back surface of the glass substrate by an adhesive agent including EVA resin.

The solar cell module used in the solar cell module 100 described in the present invention may be a module using all the solar cell modules other than the cadmium solar cell including the crystalline solar cell, the amorphous thin film solar cell, the CIGS thin film solar cell, Lt; / RTI >

The size of the solar cell module 100 described in the present invention is a crystalline solar cell module in which a solar cell having a width of 156 mm is modularized. For example, when the vertical and horizontal solar cells are modularized, The preferred vertical size is 3 to 9 lines, and in the horizontal direction, 10 to 20 lines.

The solar cell module means of all of the examples described in the present invention can be applied to the case of clearing the mountain including the answer, or installing it in the way that it is used for 20 years to 30 years in the answer, .

Each simple construction solar cell module of the present invention can be installed by installing and fixing a reflective film used in an orchard between each simple construction solar cell module to increase the efficiency and to prevent contamination of the soil by wind or rain .

Or the vinyl is laid on the rice padding, and the conventional solar cell module means is laid horizontally so that the front surface of the light receiving portion rises up thereon.

Since the thickness of the front glass is 3T or more, the weight of the solar cell module is increased.

When the solar cell module means is laid horizontally without using an installation frame, it has an advantage that it is not blown even when the wind is blown. The module frame 13 of the solar cell module means has a hole penetrating from the front surface to the back surface, As shown in FIG.

Alternatively, the tractor means can be installed in a fixed angle with respect to the solar cell module means by leaning the solar cell module means from the horizontal direction to the horizontal direction to create a high mound.

At this time, the dullness becomes the ridge and the ridge, and the solar cell module is placed on the lower part, and the solar cell module is fixed by covering the base part with the earth by fixing the angle to the expectation on the mound, and easily installing the solar cell module. can do.

It is preferable that the vinyl is blown to the dirt so that the soil is not broken down into the rain, the snow and the like, and the solar cell module is not contaminated.

The dullness is provided at an angle similar to the angle of the sunlight installation, so that the solar light can be easily installed.

In the present invention, the solar cell module means is easily installed in the rice fields, which are cultivated at Huh Nong Chol Railway Co., where the farm is finished, and the power generation is profitable. When the farm iron comes back, the solar cell module means is collected and stored. Repeatedly raising the farmers can earn crop farming profits and electricity generation profits year by year, so that they can do the solar power generation without occupying the agricultural land, and can bark the farming of the grain, which is the original purpose of the answer. Farmers can earn income.

Conventional photovoltaic power generation, when installed in the answer, constructs the supporting means of the column by pouring the pit at regular intervals and installing the frame and pouring the concrete.

A column frame is installed on the constructed concrete supporting means, and a photovoltaic module is installed thereon to make a photovoltaic power generation facility.

The conventional photovoltaic power generation facility built in the former answer can only generate solar power for 20 to 30 years, and the land can not be farmed because it occupies farmland during that period.

In all the answers, it is obvious that installing solar power plants in the conventional way can not produce grain farming, so there will be big problems in the food including rice which is a stock.

However, in the solar module and the method installed in the rice paddy field of the present invention, the farming techniques and the method of farming are used for the farming industry to obtain the necessary grain by farming the original purpose of the answer, and in the farming season, I can not build a farm because I can not live. As a result, my answer is neglected. I can easily install a solar power generation facility and earn money by generating sunlight.

However, rice prices are plummeting, and rice imports from FTAs are making rice farming less profitable.

If there is more production than rice demand, there is a need to limit the area of rice farming.

Therefore, rather than rice farming in the agricultural sector in accordance with the demand and production of rice, the government can control the applicability and area of photovoltaic power generation so that farmers can gain greater PV income have.

In other words, I can encourage the generation of solar power in the answer to the agriculture.

If we compare the demand and production of rice every year, we will control whether the agriculture will be farmed or not, whether farming will be done in agriculture or solar power generation, and if the farmers do farming and photovoltaic do.

The solar module and method installed in the rice paddy of the present invention is different from the conventional solar power generation in that it performs the farming of the grain harvesting from the answer of the solar power generation, It is a feature that surely fulfills.

In addition, because the weather is cold, I can not farm the grain. I have the feature of doing solar power generation at Hwacheon-ri, the time when the answer is neglected, so that I can get profit to the farmers all year without being occupied. have.

Each country has different periods of time, and Korea is between November and March,

Each region is slightly different, and each grain type also changes slightly.

On average, Korea starts farming in April and ends most harvests in October.

Therefore, assuming that Korea starts around April 15 and ends the harvest around October 15, it will be about 6 months farming season and about 6 months farming season.

In the present invention, it is desired to obtain the right of a method of obtaining the electric power generation profit by installing the solar cell module in the field of rice horticulture described above.

The electric wiring missing from the description of the present invention is a technology that is well known in the art for the solar cell module technology. The electric wiring is formed by appropriately distributing the DC wiring and the parallel wiring in each junction box to produce a desired output voltage value, , The inverter means and the control means can be used to construct a system that can be used in a nearby village by establishing a system using a nearby KEPCO line network or to use the remaining electricity used in a nearby village as a KEPCO line network To achieve the purpose.

In the present invention, Hwi, Nongchul is farmed and harvested, and until the start of the next farming period, the answer is changed to the time to leave the farm.

The period of the Hwigae farm is different depending on the cultivated cultivar. The period varies from January to December of the 12 months of 1 year, and it is determined differently according to each country and each region.

Therefore, it is the time and period that the huanggongcheol is neglected without sowing until the day of harvesting and harvesting the next farming.

In the present invention, a simple solar cell module means is installed in the previous answer to the present invention, and the seeds of the desired plant are sown in the space between the simple solar cell module means, that is, can do.

The plant may be a plant provided with food for livestock, or may be cereal planted in winter such as barley.

The plant may also be a plant that sows in the winter, such as garlic.

The plant can be freely selected according to each country and the region of the country. It is not intended for main agriculture. It is an empty space in the vicinity of the simple construction solar module means that the farmer can grow without fertilizer or pesticide in winter There is also the advantage of being able to sow with varieties.

Easy installation in Hwangeongcheol rather than farming area Simple installation in case of solar power module installation and solar power generation Plant that sowing around PV module means is not intended for farming, It should be managed so that it does not harm the means.

Easy construction in agriculture, railway, and answer Solar power module means are installed and simple construction Solar power module means, that is, simple construction Solar power module is used for harvesting small plants to grow solar power and farming .

I do not need a lot of sunshine, but a small ginseng. It can be farmed including peanuts including peanuts, and it can be farmed to keep cow feeding so that it can not grow to a certain size while raising plants or cereals with cattle feeding.

The solar power plant 600 described in Fig. 36 will be described below.

The non-solar power plant 600 is arranged so that the east side of the rice paddy 560 and the south side of the rice paddy 560 when the azimuthal angles of the four sides of the whole rectangular shape of the rice padding 560 are equal to or similar to east, west, The solar module means 1000 is installed at the outer edge of the west.

At the outer edges of the east and west sides of the padding 560, the front solar module means 1000 are spaced sufficiently far apart so that the shadow does not interfere with the rear solar module means 1000.

The outer edges of the south and north sides of the paddy (560) can be configured to be close to the sides.

In the non-solar power plant 600, the access road 570 is opened so that equipment necessary for farming can be accessed without installing the solar module means 1000 in any one of the east, west, (560).

The photovoltaic module means 1000 may be formed in only one of the outer edges of the east, west, south, and north sides of the non-solar power plant 600.

Farming can be done in the central part of the non-solar power plant 600, except where the photovoltaic module means 1000 is installed in only one of the outermost edges of the east, west, south, and north.

In the non-solar power plant (600), the dotted line shows the necessary equipment for farming as a moving line to enhance understanding.

Non-solar power plant (600) can combine farming and solar power generation in paddy fields.

The solar power generation plant 610 which is not shown in Fig. 37 will be described.

The non-solar power generation plant 610 can install the solar module means 1000 from the south to the north in the center of the non-solar power plant 600 described above, Everywhere you can farm.

The photovoltaic module means 1000 installed in the central portion of the non-solar power generation plant 610 from the south direction to the north direction may be arranged from east to west instead of being installed in the north direction from the south direction.

The non-solar power plant (610) can combine farming and solar power generation in rice fields.

The solar power generation plant 611 will be described below with reference to FIG.

The solar module module 1000 is arranged in the middle portion of the paddy field 560 from the south to the north direction.

According to the size of the rice paddle 560, the solar module module 1000 can be arranged in a line or two or more lines, and a sufficient distance can be formed between the solar module modules 1000 and farming there.

In addition, at the edges of the rice paddy 560, at the edges of the east, west, south, and north, sufficient space can be provided to allow the equipment to pass through without cultivating the solar module means 1000, thereby cultivating the crops there.

39, in the middle portion of the paddy field 560, the solar module module 1000 may be arranged in close contact with each other and arranged in a row from the south to the north, .

The solar module unit 1000 is installed in the middle portion between the solar power generation plant 611 not shown in Fig. 38 and the non-solar power generation plant 612 shown in Fig. 39 in the north, However, the shade of the solar module means 1000 is disadvantageous in that some sunlight is not exposed to the rear side of the solar module means 1000.

The non-solar power generation plant 613 of Fig. 40 will be described.

At the edges of the rice paddy 560, at the edges of the east, west, south, and north, the equipment can be passed without farming the solar module means 1000 and farmed there,

In the middle part, the solar module means 1000 can be arranged from east to west and can be constructed in one or more lines.

When constructing one or more lines, there can be enough space between the solar modules of each row (1000) to allow the equipment to enter and farm there.

The non-solar power generation plant 614 of Fig. 41 will be described.

The solar module means 1000 is arranged at regular intervals from the south to the north at the area of about half the area of the rice paddle 560 from the west of the rice paddle 560 and the farming is carried out in the east direction of the rice paddle 560 You can build solar power in the west direction.

The photovoltaic module means 1000 installed in the direction of the west at the non-solar power plant 614 can be installed at any one of the east, south, and north of the rice paddle 560, and in proportion to the area of the rice paddle 560 Half or less than half the area, or more than half the area.

The rice paddles 560 in the non-solar power generating station 600 to the non-solar power generating station 614 are assumed on the assumption that the four sides of the rectangular shape have the same or similar angle to the directions of east, west, south, and north.

The rice paddles 560 in the non-solar power generating station 600 to the non-solar power generating station 614 have the same angle as the directions of the four sides of the rectangular shape in the directions of east, west, south and north. The module unit 1000 can be adjusted by changing each of the modules.

The solar photovoltaic power generation plant 615 will be described below with reference to FIG.

Assume that the four sides of the paddy (560) are assumed to be diagonal to the azimuth angles of east, west, south, and north and about 45 degrees.

When the solar module module 1000 is arranged on the edge of the four sides of the rice paddle 560, the respective solar module modules 1000 are turned so as to face the south-south direction, and the solar modules are installed in the same direction.

Any one of the four sides of the paddy field (560) constitutes an entry ramp (570) sufficient for the farming equipment to correspond to the original ramp of the paddy (560).

In the middle of the inside of the edge of the non-solar power plant (615), equipment necessary for farming can be carried, farmed there, and solar power is generated at the edge.

Other examples of construction will be described without the drawings.

The photovoltaic module means 1000 can be installed on any one of the four sides of the rice paddle 560 and can be installed within about half in proportion to the area of the rice paddle 560.

The solar photovoltaic power generation plant 616 will be described below with reference to FIG.

Assume that the four sides of the paddy (560) are assumed to be diagonal to the azimuth angles of east, west, south, and north and about 45 degrees.

The photovoltaic module module 1000 can be arranged in the central part of the rice paddle 560 in the direction from the south-south direction to the north-north direction.

When the solar module means (1000) is installed in more than two lines, there is sufficient space between the lines for the equipment necessary for farming and enough space is provided on the edge of the four sides of the rice paddle (560) And cultivate farming there.

44, when the solar module units 1000 are arranged in a line in the direction from the south-south direction to the north-south direction in the middle part of the rice paddle 560 in the non-solar power generation plant 617, ) Can be arranged in one or more widths. At the edge of the four sides of rice paddy (560), sufficient space is available to allow the equipment necessary for farming to pass through and farming there.

It is possible to arrange the solar module means 1000 in the non-solar power generation plant 616 of FIG. 43 and the non-solar power generation plant 617 of FIG. 44 by arranging the solar module means 1000 from east to west instead of the north-south direction .

The solar photovoltaic power generator 618 will be described below with reference to FIG.

Assume that the four sides of the paddy (560) are assumed to be diagonal to the azimuth angles of east, west, south, and north and about 45 degrees.

The photovoltaic module means 1000 can be arranged and applied by applying the area of either the east side or the west side of the four corners of the rice padding 560. In addition, can do.

At the opposite corner where the solar module means 1000 is not constructed, the equipment required for farming can be freely roamed and farmed there.

The solar photovoltaic power generator 619 will be described below with reference to FIG.

Assume that the four sides of the paddy (560) are assumed to be diagonal to the azimuth angles of east, west, south, and north and about 45 degrees.

The photovoltaic module means 1000 can be arranged and applied by applying the area of either the south or the north of the four corners of the rice paddle 560. The solar cell module module 1000 can be arranged and installed in an area of about half of the area of the rice paddle 560 can do.

At the opposite corner where the solar module means 1000 is not constructed, the equipment required for farming can be freely roamed and farmed there.

Hereinafter, the solar power generation plant 620 described in Fig. 47 will be described.

Assume that the four sides of the paddy (560) are assumed to be diagonal to the azimuth angles of east, west, south, and north and about 45 degrees.

The solar module means 1000 is installed at a certain distance in the direction of the north corner from the southern corner of the rice paddle 560,

Between each row of solar module means (1000), there is enough room for farming and farming there.

Alternatively, the solar module module 1000 may be installed at a predetermined distance from the east corner to the west corner, and an arbitrary row may be formed depending on the size of the solar module.

Between each row of solar module means (1000), there is enough room for farming and farming there.

The directions of the four sides of the paddle 560 are different from each other in azimuth angle and the angle thereof may be as large as 45 degrees or may have a slightly similar azimuth angle.

In the present invention, the solar module means 1000 can be arranged in various ways, facing the south-south direction regardless of the azimuth angle of the four sides of the rice paddle 560.

The four sides of the padding 560 may have a square or a rectangle, but may have a shape similar to a rectangle depending on the terrain or a polygon including a circle, or may be rhombic, and may have various other shapes .

Even if the rice paddle 560 has various shapes, the access road can be secured and the solar module means 1000 can be constructed by the construction method described above.

Solar cells (10) Module buildings (13)
Fixing hole (15) Fixing hole (16)
Junction box (19) Protective square frame (20)
Lower support 24 Lower support 24a
Support frame end (25) Auxiliary frame (26)
(27) Pile fixing plate (28)
The pile hole (29)
The front mounting groove portion 31, the back mounting groove portion 32,
The fixing hole 35, the hinge hole 37,
Fixing plate (39) Fixing plate (39a)
The left and right support frames 41 of the hinge frame 40,
The lower frame 42 support end 44,
The pile hole (45) The hinge hole (48)
Hinge shafts (49) Wheel mounting frames (50)
(52) Bolts for fixing (53)
Mounting fixing frame (54) Angle adjusting hole (54a)
Mounting fixing frame (55) Angle adjusting hole (55a)
The mounting fixing frame 55b
The inner space portion 55c, the hinge insertion groove 56,
The hinge frame 58, the hinge groove 59,
The holding frame 60, the holding frame 60b,
The inner space portion 60c, the nut hole 61,
The side-by-side fixing frame 62,
The reinforcing frame (64) The reinforcing frame (64a)
The reinforcing frame (65) reinforcing frame (65d)
The hinge insertion frame (66) The fixed frame (68)
Fixing frame 69 Angle plate 70
The welding plate 71 has a hinge hole 72,
The angle adjusting hole 73 has a bent portion 74,
Angle Plate (75) The front module plate (80)
The back plate 82, the side plate 84,
Hinged equipment (88) Pipes (90)
The fixed frame 91, the front angle frame 92,
Angle frame (93) Front column pipe (92a)
The pile frame 92c and the fixed planetary gear 92d,
Angle frame 93k Fixing plane 93a
The rear column pipe 93a, the angle frame 93k,
Lower Fixing Frame 94 An intermediate fixing frame 95,
Upper fixing frame 96 reinforcing frame 99,
The solar cell module 100 includes a protection frame 110,
The mounting fixing frame 120 is mounted on the fixing frame 130,
Mounting Fixing Frame (140) Mounting Fixing Frame (150)
Mounting stationary frame (160) Support frame (170)
Installation stationary frame (180) Support frame (190)
The supporting frame 200 includes a fixing frame 210
The support frame 220 is fixed to the fixed frame 230,
The simple installation solar module 300 and the simple installation solar module 350
Easy construction Solar cell module (370) Easy construction Solar cell module (380)
Simple construction Solar cell module (390) Easy construction Solar cell module (400)
Simple construction Solar cell module (410) Simple construction Solar cell module (420)
Simple construction Solar cell module (430) Easy construction Solar cell module (440)
Simple construction Solar cell module (450) Easy construction Solar cell module (460)
Simple construction Solar cell module (470) Easy construction Solar cell module (480)
Easy construction Solar cell module (490) Easy construction Solar cell module (500)
The foldable solar cell module (510)
The pillar frame (520), the simple construction solar cell module (521)
The pillar frame (530), the simple construction solar cell module (531)
The pillar frame 540, the simple construction solar cell module 541,
Angle adjusters (550) Angular ball bearing (551)
Easy construction solar module 552

Claims (15)

I completed the farming in the answer, finished the farming in the year, installed the solar module module, and made solar power generation until the beginning of the farming in the next year, And removing the solar cell module means repeatedly every year. A solar module and method installed in a rice paddy, characterized in that agriculture and agriculture are alternated between agriculture and photovoltaic power generation, while agriculture and agriculture farming are conducted in agriculture and agriculture. The present invention relates to a method of manufacturing a solar cell module, comprising the steps of: (a) preparing a solar cell module module, To a solar module and method. The solar module and method according to any of the preceding claims, wherein a pile provided at the lower end of the lower frame, the mounting frame, and the pillar frame is fixed to the pavement when the simple installation solar module means is installed. The pile unit is fixed to the pile in the pile hole provided in the lower end of the lower support, the installation fixing frame, the pillar frame and the like when the simple installation solar module means is installed in the answer. Optical module and method. A solar module and method for installing in a rice paddle, wherein the solar module means is installed on a stationary plate provided at a lower end portion of a pillar frame of the solar module module. When the solar cell module means is installed in the answer, the pipe means are arranged in a lattice form in a grid and arranged at a predetermined interval, and the pipe at the intersection is fixed by the clim means, and the lower end Is fixed to the pipe by a clip. ≪ RTI ID = 0.0 > A < / RTI > The solar module and method are installed in the rice paddy field, characterized in that the fixed frame is installed at a desired angle around the hinge when the simple installation solar module means is installed. The agriculture module and method to install in a rice paddy is characterized in that the farming bark that barks farming in the past is between March and November. The present invention relates to a photovoltaic module and method for installing a solar cell module in a rice paddy field characterized by the fact that the solar cell power generation facility does not bark agriculture and does solar power generation from September to the following May. The answer is that farming bark that is barked for agriculture is determined differently from January to December depending on each country, each region of the country and farming items, and can be decided freely between January and December. A solar module and method for installing in a paddy field. The Hwigae farming, which does not bark for farming, will be decided between January and December of each year depending on each country, each region of the country and farming items, and can be decided freely between January and December Wherein the photovoltaic module is mounted on a paddy field. A solar module and method for installing in a rice paddy, characterized in that a simple construction solar module means is installed and a plant that can grow in the vicinity of the farm can be sown and raised. A solar photovoltaic module and method for installation in a rice paddy, characterized in that a solar cell module means can be constructed to perform solar power generation. Easy construction in agriculture, railway, and answer Solar power module means are installed and simple construction Solar power module means, that is, simple construction Solar power module is used for harvesting small plants to grow solar power generation and farming And the solar cell module is installed in the rice paddle.

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