KR101854452B1 - Solar power plant having double faces type solar module - Google Patents

Abstract

The present invention relates to a photovoltaic power generation apparatus having a double-sided photovoltaic module which has an improved structure to maintain a vacuum state in a photovoltaic module during photovoltaic power generation using the photovoltaic module, reduce wind pressure resistance, prevent degradation of a component by heat, and improve photovoltaic power generation efficiency by supplying reflected light to the left and right side of the photovoltaic module by including a detachable bottom reflective plate on the bottom plate of a support of the photovoltaic module. The photovoltaic power generation apparatus having a double-sided photovoltaic module comprises: a photovoltaic module which includes a circuit board having a plurality of solar battery cells attached to a front and a rear surface thereof, front and rear covers arranged on the front and rear sides of the circuit board, a back sheet coupled to be tightly attached to the rear cover, front glass coupled to be tightly attached to the front cover, and a frame into which edge portions of the circuit board, the front and the rear cover, the back sheet, and the front glass are inserted, maintains the interior thereof in a vacuum state, and is arranged in a direction perpendicular to the ground; a support having a bottom plate connected to the frame (170) to support the photovoltaic module to separate the photovoltaic module from the ground; a plurality of through holes drilled in the front and rear directions between adjacent solar battery cells of the photovoltaic module; vacuum maintaining means coupled to the inner circumferential surfaces of the through holes to maintain a vacuum state in the photovoltaic module and radiate heat; and a bottom reflection plate detachably coupled to an upper surface of the bottom plate.

Description

TECHNICAL FIELD [0001] The present invention relates to a solar power generation apparatus having a double-sided solar module,

The present invention relates to a solar power generator having a double-sided solar module, and more particularly, to a solar power generator having a double-sided solar module, which is capable of maintaining an internal vacuum state of the solar module during solar power generation using the solar module, And a bottom reflector which is detachable from the bottom plate of the support module of the solar module is provided so as to provide reflected light to both the left and right sides of the solar module. And more particularly, to a photovoltaic device having a double-sided solar module with improved structure to improve efficiency of solar power generation.

2. Description of the Related Art [0002] In general, photovoltaic energy has recently been introduced as a power generation device using solar energy because of its usefulness in that it is easy to use and can obtain a high efficiency and abundant energy compared with other energy sources.

A light collecting panel for collecting sunlight has a plate-like panel having a relatively large area for collecting a large amount of light energy from sunlight.

An example of an existing photovoltaic power generation device is a support frame in which a plurality of solar cell modules are mounted on an upper part thereof as disclosed in Korean Patent Registration No. 10-1371508 entitled " Photovoltaic Power Generation Device "(Registered Date: 2014.003.03). A first support unit for distributing and supporting the load of the support frame from below; A second support unit coupled to a lower side of the first support unit such that the first support unit can rotate in a vertical direction; And a cooling module provided below the support frame for cooling the back surface of the solar cell module, wherein the second support unit includes a drive motor for rotating the second support unit in a horizontal direction to transmit a rotational force to the second support unit, .

The above-described conventional technique has a disadvantage in that the solar light condensing efficiency is lowered because the solar light is applied to only one side surface or the other side surface.

In addition, the light collecting panel installed in the oblique oblique direction may be deformed or damaged by the wind pressure as the wind pressure is transmitted, and excessive heat may be transmitted to the condensing panel during the summer season, thereby deteriorating the parts.

Other prior art related to existing photovoltaic devices is disclosed in Korean Registered Utility Model No. 20-0461530 entitled " Reflective Focusing Photovoltaic Device "(Registered on July 12, 2012) 1. A solar cell comprising: a plurality of solar cells connected in series or in parallel; A support for slantingly supporting the solar panel with respect to the ground; At least one panel-side reflecting portion positioned on an edge side of the solar cell panel; And a spaced-apart reflecting portion provided at a position spaced apart from the panel-side reflecting portion to reflect the sunlight reflected by the panel-side reflecting portion back to the solar cell panel.

In this case, reflected light of the sunlight is transmitted to the solar cell module side by using the reflector, but the sunlight is concentrated. However, this is not applicable to the solar module, and the reflector is disposed at a fixed position There is a disadvantage that the reflection efficiency of sunlight moving along the locus is lowered.

In addition, since the existing reflection portion is provided outside, the reflection efficiency is lowered when foreign substances such as dust are adhered to each other. Therefore, it is troublesome for the operator to clean the surface of the reflection portion from time to time.

Korean Patent Registration No. 10-1371508 entitled "Photovoltaic Device" (Registered on 2014.003.03) Korean Registered Utility Model No. 20-0461530 entitled "Reflective Focusing Photovoltaic Device" (Registered on July 12, 2012)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and its object is to provide a solar module capable of reducing wind pressure resistance during solar power generation using a double-sided solar module, There is provided a solar photovoltaic device having a double-sided solar module in which a vacuum holding means is combined in a perforated hole to maintain a vacuum in the solar module and cooling the substrate while passing outside wind There is.

Another object of the present invention is to provide a floor reflector which is detachable from a bottom plate of a support for supporting a solar module so that the user can select whether or not to use the bottom reflector according to the environment where the solar module is installed There is provided a photovoltaic device having a double-sided solar module with improved structure.

According to an aspect of the present invention, there is provided a solar cell module including: a substrate having a plurality of solar cells mounted on a front surface and a rear surface; a front cover and a rear cover disposed on both sides of the substrate; A front cover coupled to the front cover so as to be in close contact with the front cover, and a frame in which the frame, the front cover, the back cover, the back sheet, and the front glass are fitted, A solar module; A support having a bottom plate connected to the frame and spaced apart from the ground to support the solar module; A plurality of through holes formed between the neighboring solar cells of the solar module, A vacuum holding means coupled to the inner circumferential surface of the through hole to maintain a vacuum state inside the solar module and to dissipate heat; And a bottom reflector detachably coupled to an upper surface of the bottom plate, wherein an arc-shaped groove is formed at each corner of the solar cell so that the substrate does not interfere with the plurality of solar cells, A third through hole is formed in a circular blank space formed by the groove portion, the vacuum holding means is fitted to the inner circumferential surface of the through hole, and the front and rear side rivets having a fastening hole having a female screw- An rivet member is formed and an air flow hole is formed in which a male thread is formed on the outer circumferential surface to connect the front and rear rivets and one side and the other side are screwed into the fastening holes of the front and rear side rivets, And the end of the front side rivet and the end of the rear side rivet, respectively, and the fastening force of the front and rear side rivets Solution that is configured as a ring member having a self-elasticity characterized in that the volume is changed.

According to another aspect of the present invention, there is provided a solar cell module including: a substrate having a plurality of solar cells mounted on a front surface and a rear surface; a front cover and a rear cover disposed on both sides of the substrate; A front glass which is coupled to the front cover so as to be in close contact with the front cover, and a frame in which the edges of the front cover, the back cover, the back sheet, and the front glass are inserted, A solar module disposed; A support having a bottom plate connected to the frame and spaced apart to support the solar module relative to the ground; A plurality of through holes formed between the neighboring solar cells of the solar module, A vacuum holding means coupled to the inner circumferential surface of the through hole to maintain a vacuum state inside the solar module and to dissipate heat; And a bottom reflector detachably coupled to an upper surface of the bottom plate, wherein an arc-shaped groove is formed at each corner of the solar cell so that the substrate does not interfere with the plurality of solar cells, A third through hole is formed in a circular blank space formed by the groove portion. The vacuum holding means is fitted to the inner circumferential surface of the through hole, and an air flow hole is formed therein. A thread is formed on the outer circumferential surface. A connecting nut which is fastened to an end portion of the pin member, and a connecting nut which is interposed between a supporting jaw of the pin member and the front surface of the frame and which is interposed between one side and the other side of the pin member And a ring member.

The front and rear covers are made of transparent EVA material.

Wherein the bottom reflector is formed to be inclined upward from the center of the bottom plate to both left and right sides and is detachably coupled to both left and right sides of the bottom plate with fixing bolts, And a fastening member for detachably coupling the rim of the reflection sheet to the upper surface of the bottom body.

The bottom body of the bottom reflector is composed of an upper plate rotatably connected to one side of the lower plate by a hinge pin so that the angle of inclination of the bottom plate is adjustable and further includes an inclination angle adjusting means for adjusting the inclination angle of the upper plate with respect to the lower plate.

The fixing device according to any one of claims 1 to 3, wherein the inclination angle adjusting means comprises: a bending portion bent downward at the other side of the upper plate and having a through hole formed therein; a fixing portion formed on the other side of the lower plate and having a plurality of upper and lower coupling holes, And a connecting bolt penetrating the connecting hole and fastened to the fastening hole.

The through holes are formed in the first, second, third, fourth, and fifth through-holes so as to be horizontally aligned on the front glass, the front cover, the substrate, the back cover and the back sheet, The third through hole is formed with arc-shaped grooves at each corner of the solar cell so as not to interfere with the solar cell, and is formed in a circular margin space formed by the grooves.

The present invention has the following effects.

First, a plurality of through holes are formed in the front glass, the front cover, the substrate, the rear cover, and the back sheet of the solar module in solar power generation using the solar module, and vacuum holding means is provided in each through hole, It is possible to reduce the wind pressure resistance of the solar module by the wind passing through the air flow hole of the vacuum holding means while the inside of the vacuum state can be maintained and the substrate can be cooled by the heat exchange while preventing the component deterioration phenomenon .

Second, according to the present invention, since the bottom reflector is detachably coupled to the bottom plate of the support, the bottom reflector can be installed or omitted depending on the place or environment where the solar module is installed, When the bottom reflector is provided, solar light is reflected to the solar cell side of the substrate and reflected light is transmitted to the solar module, thereby improving solar power generation efficiency.

Third, since the bottom reflector of the present invention includes the inclination angle adjusting means having the upper plate rotatable with respect to the lower plate and capable of adjusting the inclination angle, the angle of the reflected light can be adjusted according to the environment in which the solar module is installed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a solar power generator having a double-sided solar module according to the present invention;
2 is an exploded perspective view of the photovoltaic module of the present invention.
3 is an exploded perspective view showing the vacuum holding means of the present invention.
4 is a cross-sectional view schematically showing a state in which the vacuum holding means of the present invention is coupled to each through hole;
5 is an exemplary view showing an assembly process in which the vacuum holding means of the present invention is assembled in the through hole.
6 is an exploded perspective view showing a state before the reflection sheet of the bottom reflector of the present invention is joined to the bottom body.
7 is a perspective view showing another embodiment of the vacuum holding means of the present invention.
8 is a sectional view of the coupling state of Fig. 7;
9 is an exemplary view showing an assembly process in which another embodiment of the vacuum holding means of the present invention is assembled in the through hole.
10A and 10B are views showing a modification of the bottom reflector of the present invention.

1 to 6, a photovoltaic device having a double-sided solar module according to the present invention includes a substrate 130 on which a plurality of solar cells 140 are mounted on a front surface and a rear surface, A rear cover 160 disposed on both sides of the front cover 130 to be in close contact with the rear cover 150, And a frame 170 in which the rim of the glass 110 and the front and rear covers 120 and 150, the back sheet 160 and the front glass 110 are fitted and the inside is maintained in a vacuum state A solar module (100) arranged in a direction perpendicular to the ground; A support 180 coupled to the frame 170 and having a bottom plate 185 to support the photovoltaic module 100 away from the ground; A plurality of through holes 300 formed between adjacent solar cells 140 of the photovoltaic module 100; A vacuum holding means 400 coupled to the inner circumferential surface of the through hole 300 to maintain and maintain the vacuum state inside the solar module 100; And a bottom reflector 200 detachably coupled to the top surface of the bottom plate 185.

The solar module 100 of the present invention is applied to a double-sided solar module having solar cell 140 attached to the front and rear surfaces of the substrate 130, respectively.

1 and 2, the front and rear covers 120 and 150 are made of a transparent EVA material and disposed on both sides of the substrate 130 on which the plurality of solar cells 140 are mounted.

The back sheet 160 is disposed on the rear side of the rear cover 150 to prevent moisture penetration and to reflect light projected through the rear cover 150 again.

The through holes 300 are formed in a plurality of holes formed in a line on the front glass 110, the front cover 120, the substrate 130, the rear cover 150 and the back sheet 160, 2, 3, 4, 5 through holes 301, 302, 303, 304, 305.

The upper part of the support frame 180 is connected to the lower part of the frame 170 to support the solar module 100 so as to stand perpendicular to the ground.

In addition, the bottom plate 185 of the support base 180 is configured in the form of a plate in contact with the ground to support the solar module 100 erected perpendicular to the ground.

3, the vacuum holding means 400 includes fastening holes 415a and 415b which are fitted in the inner circumferential surface of the through hole 300 and are formed with internal threads on the inner circumferential surface thereof, A male thread is formed on the outer circumferential surface so as to connect the front and rear rivets 412 and 414 so that one side and the other side of the rivet member 410 constitute the rivets 412 and 414 of the front and rear side rivets 412 and 414, And a connecting hole 420 formed in the inner side of the front side rivet 412 and the rear side rivet 414 so as to have an air flow hole 425 formed therein, And a ring member 430 having a self-resilience such that the volume changes according to the fastening force of the front and rear rivets 412 and 414 by the connector 420.

The ring member 430 is bulged by the fastening force of the connector 420 in the process that the front side rivet 412 is coupled to the front glass 110 and the rear side rivet 414 is coupled to the back sheet 160 And performs an airtight function of shutting off the outside air flowing into the through hole 300 side.

As shown in FIG. 4, the connector 420 has a cylindrical structure in which a male screw thread is formed on an outer circumferential surface so as to be screwed into a female thread formed inside the fastening holes 415a and 415b of the front and rear rivets 412 and 414 And the other side is screwed to the fastening hole 415b of the rear side rivet 414 to connect the front and rear side rivets 412 and 414 .

The rivet member 410 is composed of front and rear side rivets 412 and 414 which are divided to facilitate entry into the front and rear of the through hole 300. The connecting member 420 is provided for connecting the front and rear rivets 412 and 414, So that they are screwed together.

As shown in FIG. 5, the front and rear rivets 412 and 414 are assembled in a state in which the front side rivet 412 in which the connector 420 is fastened is introduced into the through hole 300, The rear side rivet 414 is inserted into the through hole 300 and rotated while the rear side rivet 414 is screwed to the other side of the connecting hole 420. [

 The front and rear side rivets 412 and 414 are engaged with the front and rear side rivets 412 and 414 before the front and rear side rivets 412 and 414 and the connecting hole 420 are fastened together. The ring member 430 having elasticity by the screwing force is brought into close contact with the front glass and the back sheet 160 so that the airtight state of the ring member 430 can be maintained.

A support step 416 is formed at an end of the front and rear rivets 412 and 414 to prevent the ring member 430 from being separated from the outer side.

The support jaws 416 are formed to protrude outward from both side ends of the front and rear rivets 412 and 414 to prevent the ring member 430 from coming off.

In addition, the present invention further includes a bottom reflector 200 detachably coupled to the left and right upper surfaces of the bottom plate 185 of the support base 180 to reflect the sunlight to the solar cell module 100 side.

6, the bottom reflector 200 is formed to be inclined upward from the center of the bottom plate 185 toward the left and right sides and fixed bolts 215b are formed on the left and right sides of the bottom plate 185, A reflection sheet 220 detachably coupled to the upper surface of the bottom body 210 and a cover 220 detachably attached to the upper surface of the bottom cover 210. The bottom cover 210 is detachably coupled to the bottom cover 210, And a fastening member 230 for fastening the fastening member.

The bottom body 210 has a structure in which flanges 215 having coupling holes 215a are formed on the left and right sides of the bottom body 210 for coupling the fixing bolts 215b.

The reflection sheet 220 is made of a material that reflects sunlight to the solar module 100 side and is attached to the upper surface of the bottom body 210 by a fastening member 230 in a detachable manner.

Therefore, when the function of the reflective sheet 220 is deteriorated due to the long use of the reflective sheet 220, the fastening state of the fastening member 230 is released and separated from the bottom body 210, It is possible to replace only the reflection sheet 220, which is advantageous in that the replacement work is easy and the maintenance cost can be reduced.

The bottom reflector 200 of the present invention is disposed on both left and right sides of the bottom plate 185 and reflects sunlight to the solar cell 140 disposed on the front and back sides of the substrate from the reflected light 220 , And the solar photovoltaic power generation efficiency with respect to the sunlight irradiated by the sun can be improved.

FIG. 7 is a view showing another embodiment of the vacuum holding means 400 according to the present invention, wherein the same components as those of the foregoing embodiment will be denoted by the same names and symbols.

The vacuum holding means 400 according to another embodiment is fitted in the inner circumferential surface of the through hole 300 and has an air flow hole 415 formed therein, a thread is formed on the outer circumferential surface thereof, and a support protrusion 416 is formed at one end A connecting nut 420A fastened to an end of the pin member 410A and a connecting nut 420A interposed between the supporting rim 416 of the pin member 410A and the front glass 110, And a ring member 430 fitted to one side and the other side of the pin member 410A so as to be interposed between the rear surface of the seat 160 and the connecting nut 420A.

The air flow hole 415 of the pin member 410A is formed so as to communicate with one side and the other side and has a male thread formed on an outer circumferential surface thereof to be coupled with a connecting nut 420A.

The ring member 430 is interposed between the support rim 416 of the pin member 410A and the front surface of the front glass 110 and is interposed between the rear surface of the back sheet 160 and the connection nut 420A, The sealing member 410A and the connecting nut 420A reduce the volume by the tightening force of the connecting nut 420A and perform the sealing function to block the outside air flowing into the through hole 300 side.

8 and 9, the assembly process of the vacuum holding means 400 may include a process of assembling the front glass 110, the front cover 120, the substrate 130, the rear cover 150 The pin member 410A is passed through the first, second, third, fourth and fifth through holes 301, 302, 303, 304 and 305 formed in the back sheet 160 and the connecting nut 420A is attached to the end of the penetrating pin member 410A Respectively.

Before the pin member 410A and the connecting nut 420A are fastened to each other, the ring member 430 is attached to one side and the other side of the pin member 410A so as to be in close contact with the front surface of the front glass 110 and the rear surface of the back sheet 160, Respectively.

The ring member 430 is supported on the front surface of the front glass 110 and the rear surface of the back sheet 160 by the supporting jaw 416 and the connecting nut 420A, It is possible to maintain a hermetic state to prevent external air from entering into the interior of the solar cell module 100.

The support protrusion 416 is formed to protrude outward from one end of the pin member 410A to prevent the ring member 430 from being detached.

10A and 10B are views showing a modified example of the bottom reflector 200. The bottom body 210 has a hinge pin 217 at one side of the lower plate 214 to adjust the inclination angle of the bottom body 210 And an inclination angle adjusting means for adjusting the inclination angle of the upper plate 212 with respect to the lower plate 214.

The inclination angle adjusting means includes a bent portion 212a bent downward at the other side of the upper plate 212 and having a through hole 212b formed therein and a plurality of upper and lower bent portions bent upward at the other side of the lower plate 214 A fixing portion 214a having a fastening hole 214b having a thread on the inner circumferential surface thereof and a connecting bolt 218 penetrating through the connecting hole 212b and fastened to the fastening hole 214b.

The upper plate 212 is rotatable with respect to the lower plate 214 with respect to the hinge pin 217 and the upper plate 212 is rotated according to the height of the fastening holes 214b to which the connection bolts 218 are fastened, The angle of the reflected light by the reflecting sheet 220 can be adjusted. Thus, the operator can arbitrarily adjust the angle of the reflected light by the positional environment (flat surface, inclined surface, etc.) in which the solar module is disposed.

Although not shown in the figure, the present invention includes an inverter for converting electricity generated from the solar module 100 and a battery for storing electric energy converted from the inverter.

According to the present invention having such a structure, the sunlight is collected and generated by using the continuously arranged solar modules 100, and a floor reflector (not shown) is installed on the bottom plate 185 of the solar module 100, (200), it is possible to improve the solar power generation efficiency by providing reflected light toward the solar module (100) side according to the position of the sun.

For example, when the sunlight is positioned on the right side of the solar module 100, sunlight is reflected on the bottom reflector 200 located on the left side of the solar module 100 as shown by arrows in FIG. 1, Reflected light is transmitted to the optical module 100 side.

10A, when the bottom plate 185 is positioned on the flat paper surface, the inclination angle of the top plate 212 is set to be the same as the inclination angle of the bottom plate 185, the upper plate 212 is disposed at an inclination angle larger than the inclination angle? 2 of the upper plate 212 in FIG. 10B. On the contrary, when the bottom plate 185 is disposed on the inclined plane, The inclination angle?

The inclination angles? 1 and? 2 of the upper plate 212 are selectively adjusted according to the environment (flat or inclined plane) of the installation place so that a greater amount of reflected light is transmitted to the solar cell 140 of the solar cell module 100, .

Therefore, the inclination angle adjusting means of the present invention can adjust the angle of the reflected light reflected from the reflection paper 220 by adjusting the inclination angle of the upper plate coupled with the reflection paper 220, It is possible to improve the efficiency of solar power generation.

Since the plurality of through holes 300 are formed in the solar cell module 100 of the present invention and the pin member 410A having the air flow holes 415 is fitted and coupled in the through holes 300, It is possible to minimize the wind pressure resistance in the process of passing through the air hole 425 of the connector 420 or passing through the air flow hole 415 of the pin member 410A of the later embodiment, The solar module 100 is cooled by heat exchange while passing through the heat exchangers 415 and 425 to prevent deterioration of the components of the substrate 130. [

During the solar power generation, the edge of the substrate 130 is transferred to the pin member 410A, but the substrate 130 is cooled in a heat exchange manner while the air passes through the air flow holes 415 and 425 The deterioration of the solar cell 140 attached to the substrate 130 can be prevented.

The bottom reflector 200 is detachably coupled to the top surface of the bottom plate 185 of the support table 180 so that the bottom reflector 200 can be selectively installed according to the location or environment where the solar module 100 is installed. It is advantageous in that the convenience of the user can be increased.

The reflection sheet 220 of the bottom reflector 200 of the present invention can reduce the component maintenance cost by removing only the reflection sheet 220 by separating the reflection sheet 220 from the bottom body 210 when the reflection sheet 220 is damaged .

Although the present invention has been described in detail with reference to specific embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the appended claims, as well as the appended claims.

That is, the present invention described above is not limited to the above-described specific preferred embodiments, and any person skilled in the art will be allowed to use the present invention without departing from the gist of the present invention. It will be understood that various modifications can be made without departing from the spirit and scope of the invention as defined in the appended claims.

100: solar module 110: front glass
120: front cover 130: substrate
140: solar battery cell 141: groove
150: rear cover 160: back sheet
170: frame 180: support
185: bottom plate 200: bottom reflector
210: bottom body 212: top plate
212a: bent portion 212b: connecting hole
214: lower plate 214a:
214b: fastening hole 215: flange
215a: coupling hole 215b: fixing bolt
217: Hinge pin 218: Connecting bolt
220: reflection sheet 230: fastening member
300: through hole 301, 302, 303, 304, 305: through 1,2,3,4,5
400: vacuum holding means 410: rivet member
410A: Pin members 412, 414: Front and rear side rivets
415: air flow hole 415a (of the pin member) 415b: fastening hole (of the front and rear side rivets)
416: Support jaw 420: End connection
420A: connection nut 425: air flow hole (of connector)
430: ring member

Claims (5)

A front and a rear cover 120 and 150 disposed on both sides of the front and back sides of the substrate 130 and a rear cover 150 disposed on both sides of the rear cover 150. [ A front glass 110 coupled to the front cover 120 so as to be closely contacted with the front and rear covers 120 and 150, A solar module 100 including a frame 170 in which a rim portion of the solar cell 110 is fitted, the interior of which is maintained in a vacuum state and is disposed in a direction perpendicular to the ground;
A support 180 coupled to the frame 170 and having a bottom plate 185 to support the photovoltaic module 100 away from the ground;
A plurality of through holes 300 formed between adjacent solar cells 140 of the photovoltaic module 100;
A vacuum holding means 400 coupled to the inner circumferential surface of the through hole 300 to maintain and maintain the vacuum state inside the solar module 100; And
And a bottom reflector 200 detachably coupled to the top surface of the bottom plate 185,
The substrate 130 is formed with arc-shaped grooves 141 at each corner of the solar cell 140 so as not to interfere with the plurality of solar cells 140, A third through hole 303 is formed in the circular blank space,
The vacuum holding means 400 includes front and rear side rivets 412 and 414 provided with fastening holes 415a and 415b which are fitted in the inner circumferential surface of the through hole 300 and formed with a female screw hole on the inner circumferential surface thereof, A male thread is formed on an outer circumferential surface to connect the rivet member 410 and the front and rear rivets 412 and 414 so that one side and the other side are located inside the fastening holes 415a and 415b of the front and rear side rivets 412 and 414 A connecting port 420 formed with an air flow hole 425 which is threaded and capable of allowing air to flow in and an end portion of the front side rivet 412 and the rear side rivet 414, And a ring member (430) having self-resilience such that the volume of the ring member (430) is changed by the fastening force of the front and rear rivets (412, 414) by the front and rear rivets (412, 414). A front and a rear cover 120 and 150 disposed on both sides of the front and back sides of the substrate 130 and a rear cover 150 disposed on both sides of the rear cover 150. [ A front glass 110 coupled to the front cover 120 so as to be closely contacted with the front and rear covers 120 and 150, A solar module 100 including a frame 170 in which a rim portion of the solar cell 110 is fitted, the interior of which is maintained in a vacuum state and is disposed in a direction perpendicular to the ground;
A support 180 coupled to the frame 170 and having a bottom plate 185 to support the photovoltaic module 100 away from the ground;
A plurality of through holes 300 formed between adjacent solar cells 140 of the photovoltaic module 100;
A vacuum holding means 400 coupled to the inner circumferential surface of the through hole 300 to maintain and maintain the vacuum state inside the solar module 100; And
And a bottom reflector 200 detachably coupled to the top surface of the bottom plate 185,
The substrate 130 is formed with arc-shaped grooves 141 at each corner of the solar cell 140 so as not to interfere with the plurality of solar cells 140, A third through hole 303 is formed in the circular blank space,
The vacuum holding means 400 includes a pin member 410A which is fitted in the inner circumferential surface of the through hole 300 and has an air flow hole 415 formed therein and a thread formed on the outer circumferential surface thereof and a support step 416 formed at one end thereof, A connecting nut 420A fastened to an end of the pin member 410A and a connecting nut 420A interposed between the supporting pin 414 of the pin member 410A and the front surface of the frame 170, And a ring member (430) fitted on one side and the other side of the pin member (410A) so as to be interposed between the connection nuts (420A). The method according to any one of claims 1 to 3,
Wherein the front and rear covers (120, 150) are made of a transparent EVA material. The method according to any one of claims 1 to 3,
The bottom reflector 200 is formed to be inclined upward from the center of the bottom plate 185 to both left and right sides and is detachably coupled to the left and right sides of the bottom plate 185 with fixing bolts 215b A bottom body 210,
A reflective sheet 220 detachably coupled to the upper surface of the bottom body 210,
And a fastening member 230 for detachably coupling the rim of the reflective paper 220 to the upper surface of the bottom body 210,
The bottom body 210 of the bottom reflector 200 is composed of an upper plate 212 rotatably connected to one side of the lower plate 214 by a hinge pin 217 so that the inclination angle of the bottom plate 210 is adjusted, And an inclination angle adjusting means for adjusting an inclination angle of the second inclined surface 212,
The inclination angle adjusting means includes a bent portion 212a bent downward at the other side of the upper plate 212 and having a through hole 212b formed therein and a plurality of upper and lower bent portions bent upward at the other side of the lower plate 214 And a connecting bolt (218) penetrating through the connecting hole (212b) and fastened to the fastening hole (214b), characterized in that the fastening part (214a) has a fastening hole (214b) Photovoltaic device with a module. The method according to any one of claims 1 to 3,
Each of the through holes 300 may be formed in a first through hole 130 formed horizontally so as to be horizontally aligned with the front glass 110, the front cover 120, the substrate 130, the rear cover 150 and the back sheet 160, , 2, 3, 4, 5, and through holes (301, 302, 303, 304, 305).

Images