KR101924635B1 - Modules for PV modules with solar induction bars - Google Patents

Abstract

The present invention relates to a block for a solar photovoltaic panel equipped with a solar light transmission device, and more particularly, to a solar photovoltaic panel provided on a roof of a building or the like, Which is configured to illuminate the sun.
Generally, in the shadow areas where buildings or nature are formed, the sunlight is cut off and the practical living conditions are low because the temperature is low especially in winter.
Therefore, although the reflector or the optical cable is used to effectively shade the shade area formed in the building, economical efficiency is low.
A roof 168 of the building 166 in which the room 165 and the sunshine 162 and the shaded area 160 are formed or the upper end of the column 195 protruding fixedly from the ground 155, And a frame 130 interlocked with the rotation unit 150 is coupled to a shaft 135 to be rotatably driven by a rotation driving unit 150 coupled to the shaft 135, In the solar power generation plate 145 provided in the solar cell module 140,
A fixed rib 173 for fixing the fixed base 140 with a shaft 135 at a magnetic field position of the fixed base 140, a curved reflecting base 272 protruding from both sides of the fixed rib 173, The solar light oil tool 284 formed by the wall body 281 for interrupting the end portion of the curved reflector 272 is formed at the lower end of the inverted truncated solar light refracting guide 276 so as to have a curved structure The irradiation table 279 is provided to irradiate sunlight to the shadow region 160,
A transparent synthetic resin substrate 277 formed of the solar power generation plate 145 and a photovoltaic device 270 separated from the transparent substrate 277 by a spacing interval 278. [
A fixed rib 173 for fixing the magnetic field position of the fixing plate 140 to the shaft 135 and a fixed rib 173 for guiding the magnetic field of the fixed plate 140 to the upper and lower sides of the fixed ribs 173, And a wall body 282 inclined to both sides so as to intercept the inclined end portions of the curved reflectors 273 and 274. The sunlight oil tool 284 And an irradiation table 279 'curved to both left and right sides of the sunlight oil tool 284 by a bending groove reflection plate 298 provided at the center of the solar oil tool 284 as the irradiation table 279 , And the slope is irradiated with sunlight by forming the irradiation table 279 '.
The section of the shaft 135 is divided into two parts by a fixing table 287. The sectional shape of the shaft 135 is reversed by a sunlight refraction guide 276 (276?) And the sunlight refraction guide 276 (276? The duct duct 298 is connected to the lower end of the duct duct 297 and is connected to the shade area 160 through the duct duct 299. Invention.
The solar light refraction guide 276 is provided with an induction recessed trench 288 formed in a rectangular shape and a reflector 254 formed in a rectangular shape in an intermediate wall 289 of the induction recessed trench 288 , A second solar photovoltaic plate (245) formed in engagement with the engagement rib (242) formed in the middle of the guide recessed trench (288)
And is provided as a reflection plate 254 which is in close contact with the inner surface of the guide recessed trench 288.
In addition, concave and convex portions 294 for reinforcing curvature are provided on the end face of the solar light refraction guide 276,
A cap 165 of a housing 163 fixed downward at both side edges of the shaft 135 and a lower end of a column 195 protruding from the cap 165 of the housing 163, And an arc-shaped rail 290 on which the wheel 280 is driven.

Description

Module for a photovoltaic panel equipped with a solar induction unit {omitted}

The present invention relates to a module for a solar power generating panel equipped with a solar light transmission device, and more particularly, to a solar energy generating module provided on a roof of a building or the like and having a separate solar light transmission device, Which is configured to illuminate the sun.

Generally, in the shadow areas where buildings or nature are formed, the sunlight is cut off and the practical living conditions are low because the temperature is low especially in winter.

In addition, since the modules (power generation elements) arranged in the solar power generation plate are arranged at a regular interval, half of the power generation effect is generated in the portion where the sunlight is blocked.

Although sunlight uses refraction as a convex lens to form the induction of sunlight, the use of refraction glass as the convex lens is practically difficult to put into practical use due to economical problems.

In addition, a power plant formed on a solar power generation plate is being developed in a direction to enhance the transparency effect as much as possible, and it is a tendency to develop in conjunction with indoor lighting as it is used for attaching to a window frame of a building.

In addition, the photovoltaic panel, which is constructed as large as possible on the roof or the wall of the building, is a structure that provides solar power generation in addition to solar power generation in the sunlight. And a rotation drive device is provided according to the movement of the sun.

   Buildings constructed on the ground are provided with a solar power generator that slopes obliquely at an angle from the roof so as to be directed to a sunny sunny place to provide solar absorption or solar power generation. (10-2011-0081696)

Here, the column for the photovoltaic panel is equipped with a rotating means so as to track the movement of sunlight so as to effectively perform the solar power generation. (10-2008-86530, 10-2011-0043713)

In addition, the induction tube for guiding the sunlight uses the optical cable so that the inside diameter of the optical cable is used to pass the optical cable through the curvature formed by reflection of the sunlight.

In addition, the duct pipe for transferring the sunlight is provided with a sus material, so that workability for bending and reflection power of sunlight are well formed.

  In addition, in a generally-formed building or area where the irradiation of sunlight is blocked (hereinafter referred to as a "shade area"), due to the lack of sunlight and decaying bacteria, By providing the environment, it is becoming a cause of various diseases.

In addition, the construction of wind power and photovoltaic power generation devices to achieve effective development of sunlight or wind power in the air on the ground or the rooftop of a building is disclosed in the application filed on the date of filing 2008/08, 0116558 discloses a rotary blade provided at an upper portion of a support column so as to be installed at a predetermined height so as to maintain a predetermined distance for restoring the rotational force against the wind power blown from the air, It occurs only in the moment, and since it is installed in the air, the amount of sunlight shining in clear weather is said to be infinite.

   Therefore, in the present invention, in order to provide the sunlight to be exposed to the air, in the present invention, in particular, the installation of the bearing and the support beam and the frame block protruding from the support column and the support beam, And a columnar rail for driving the wheels is provided so that the solar power generating block can be driven to rotate in accordance with the movement of sunlight. A support beam having a rotating means coupled to the support column and a photovoltaic power generation plate provided in the frame to induce wind power as well as solar power generation.

However, it is required to effectively disperse the sunlight in the shaded area by guiding the irradiation section to the effective enlargement of the rotation section with respect to the rotary device.

 In addition, the structure of the surrounding space in which the above-described building or the work site solar photovoltaic device is installed is a clear view, and it is said that the intensity of the wind and solar light is high and the section of the range of sunlight (inclination angle) is wide.

  Therefore, the characteristics of the wind power and the photovoltaic power generation device having the above-described structure are provided at a low height without using a high-length support column, so that the sunlight is relatively driven by the rotation of the sunlight, To reinforce the economic efficiency of environmental reinforcement effect.

  In addition, in the present invention, 10-2011-0039797 has provided an air flow port on a solar photovoltaic panel to lower the surface temperature of a heated solar photovoltaic panel in a hotpot.

In addition, the invention provided by the applicant's own invention 10-2013-0133646 is characterized in that the solar oil light guide groove 188 and the fixing table 181, which are continuously provided on the fixing plate 140 for fixing the solar power generation plate, A duct duct 197 connected to the lower end of the sunlight oil guide groove 188 and connected to the end of the duct duct 197 by a shadow area 160, To provide the sunlight that has passed through the transparency of the photovoltaic panels into the shade area of the building.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the conventional problems and to provide a solar power generating device of a photovoltaic device installed on a roof or a wall of a building, To be reflected to the backside, so as to provide shade or subterranean space of the building to shade out the sunlight.

  In addition, the power plant for the solar photovoltaic panel, which is installed as described above, provides a transparency enhancement to the EVA sheet as the substrate, as well as adopting the third-generation power plant of transparency organic material or nanostructure, thereby reinforcing the transmission power of sunlight to the solar photovoltaic panel It is for a cycle.

In addition, in order to provide economical reinforcement by installing the solar panel on a wall of another solar trough by reflecting the transmitted light formed by adopting the transparent sheet.

  The solar radiation discharge plate is provided with a reflective recessed groove having a long length so as to economically reinforce the optical cable for inducing sunlight which is transmitted through the solar radiation discharge plate. The lower end of the reflective recessed groove is provided with a stain material It is to reinforce the economical efficiency by guiding the sunlight to the shade area by reinforcing the reflection force by adopting the duct pipe of.

In addition, it is intended to reinforce the efficiency of inclined solar irradiation according to the movement of the sun at the sunlight oil level zone.

The photovoltaic generation is performed on the roof 168 of the building 166 in which the indoor 165, the sunshine 162 and the shade region 160 are formed or the upper end of the column 195 projecting fixedly from the ground 155 A frame 130 interlocked with the rotating unit 150 is connected to a fixing plate 140 which is rotationally driven by engaging with a shaft 135, In the solar photovoltaic panel 145,

  A fixed rib 173 for fixing the magnetic field of the fixing plate 140 to the shaft 135, a curved reflecting bar 272 protruding from both sides of the fixed rib 173, The solar light oil tool 284 formed by the wall body 281 for interrupting the end portion of the curved reflector 272 is formed at the lower end of the inverted truncated solar light refracting guide 276 so as to have a curved structure The irradiation table 279 is provided to irradiate sunlight to the shadow region 160,

A transparent synthetic resin substrate 277 formed of the solar power generation plate 145 and a photovoltaic device 270 separated from the transparent substrate 277 by a spacing interval 278. [

A fixed rib 173 for fixing the magnetic field position of the fixing plate 140 to the shaft 135 and a fixed rib 173 for guiding the magnetic field of the fixed plate 140 to the upper and lower sides of the fixed ribs 173, And a wall body 282 inclined to both sides so as to intercept the inclined end portions of the curved reflectors 273 and 274. The sunlight oil tool 284 And an irradiation band 279? Bent to both left and right sides of the sunlight oil tool 284 by a bending groove reflection band 298 provided in the center of the sunlight oil tool 284 as the irradiation band 279 , And the slope is provided to irradiate the sun by the formation of the irradiation bed (279?).

In addition, the section of the shaft 135 is divided into two parts by a fixing table 287, and the sectional shape of the sun ray refraction guides 276 and 276 'and the sunlight refraction guides 276 and 276' A duct duct 297 which is connected to the lower end of the duct duct 297 and connected to the shade region 160 at a distal end of the duct duct duct 298, Invention.

The solar light refraction guide 276 is provided with an induction recessed trench 288 formed in a rectangular shape and a reflector 254 formed in a rectangular shape in an intermediate wall 289 of the induction recessed trench 288 , A second solar photovoltaic plate (245) formed in engagement with the engagement rib (242) formed in the middle of the guide recessed trench (288)

And is provided as a reflection plate 254 which is in close contact with the inner surface of the guide recessed trench 288.

In addition, concave and convex portions 294 for reinforcing curvature are provided on the end face of the solar light refraction guide 276,

A cap 165 of a housing 163 fixed downward at both side edges of the shaft 135 and a lower end of a column 195 protruding from the cap 165 of the housing 163, And an arc-shaped rail 290 on which the wheel 280 is driven.

In the present invention, sunlight passing through a sunlight module provided in a solar power generating block mounted on a roof of a building is penetrated through, and the penetrated sunlight is guided to the reflection of the reflector provided in the induction groove , Which is a duct tube formed in a curved structure and is configured to illuminate the sunlight that is kept in the shade region with solar heat. The invention provides an invention that is provided to allow the sunlight transmitted through the conventional solar battery plate to be curved in the shade region, Which provides disinfection, drying, and warming effect generated in the shade area, thereby reinforcing the efficiency of existing solar photovoltaic panels, thereby providing economical efficiency and practicality of a place where construction is performed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
Fig. 2 is a perspective view of the coupled recess in Fig.
3 is a cross-sectional view of the condition of use of the present invention
Fig. 4 is a perspective view of the essential part of Fig. 1,
Fig. 5 is a side view of the main part of Fig. 4
Figure 6 is a partial perspective view of another embodiment of the recess in Figure 1;
Fig. 7 is a cross-sectional view taken along line AA in Fig.
Fig. 8 is a cross-sectional view of the recessed portion in Fig. 7
9 is a partial cross-sectional view of another embodiment of the recess of the present invention
Figure 10 is a partial perspective view of the condition of use of the recess in Figure 6;

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

FIG. 1 is a partial perspective view of a concave portion of the present invention, FIG. 2 is a perspective view of a concave portion coupled to the concave portion of FIG. 1, FIG. 3 is a cross- FIG. 5 is a side view of the main part of FIG. 4; FIG.

FIG. 6 is a partial perspective view of another embodiment of the recess in FIG. 1; FIG. FIG. 7 is a cross-sectional view taken along line AA in FIG. 4, FIG. 8 is a cross-sectional view of a concave portion in the coupled state in FIG. 7, FIG. 9 is a partial cross- And is a partial perspective view of the state of use of the lumbar region.

Accordingly, the present invention provides a solar power generating plate 145 which is constructed on the ground and generates electricity by sunlight shining on a roof 168 of a building 166 formed of a shade region 160 and an indoor space 165, The solar power generating plate 145 coupled to the rotating unit 150 that rotates in accordance with the movement of the sun and the fixed plate 140 that is linked to the rotating unit 150 is formed, It is used to provide photovoltaic power generation.

However, in order to accelerate the drying of the sunlight shining on the solar power generation plate 145, particularly in the winter when it is in a humid condition due to heating or rainy weather in the winter season, the shade area 160 described above or the invention The transparent substrate 277 for the photovoltaic power generation plate 145 is made of a synthetic resin material having transparency in order to guide the sunlight to a shadow area formed by covering the sunshine. A photovoltaic power generation device 270 provided continuously and repeatedly in left and right directions with a space 278 spaced apart from the transparent substrate 277 by a predetermined distance, It is a principle that the transparent substrate 277 is made to transmit sunlight while generating solar light.

In addition, the transparent substrate 277, which is fixedly coupled to the solar cell plate 145, is provided to collect and transmit the transmitted sunlight to the shade region 160. As shown in the accompanying drawings, The roof 165 is fixed at the roof 155 formed at the roof 168 of the building 166 in which the room 165 and the shade area 160 are formed so as to collect the maximum amount of solar light while being fixedly installed in most of the ground. And a frame 130 interlocked with the rotation unit 150 is coupled to a transparent substrate 277 which is rotationally driven by engaging with the shaft 135 And the solar power generation plate 145 is used.

The direction in which the sunlight shines in the building 166 is referred to as a sunshine 162 and the shape of the sunshine 160 in the shadow area 160 by the terrain or the building 166 to be.

The transparent substrate 277 that fixes the solar cell plate 145 is driven so that sunlight is maximally rotated in a state of being tilted and rotated.

Accordingly, the slope is an invention for providing the structure of the fixing table 140 to sunlight refraction so that the sunlight is reflected to the shade region 160,

A fixing table 140 integrally formed at an edge of the solar power generation plate 145 and a sunlight passing through the solar power generation plate 145 formed of the transparent material to a shade area 165 of the building 166 A fixing rib 173 for fixing the edge of the fixing table 140 to the shaft 135 so as to illuminate the fixing rib 140 and a curved reflection mirror 173 for projecting the curved state from both sides of the fixing rib 173, A wall 281 for interrupting the ends of the reflectors 272 and 272 'and a sun-mineral oil tool 284 formed of the wall 281 are fixed in a curved manner The sunlight is irradiated to the shade area 160 by providing the irradiation table 279 at the lower end of the sunlight refraction guide 276 having the inverted truncated shape.

Here, the curved reflectors 272 and 272 'projecting the respective curved states from both sides of the fixed ribs 173 are provided with appropriate curvatures so as to shine the transmitted sunlight into the shadow and reflections of the sunlight. And the inner side surface of the wall 281 is also provided to shine in the shade region due to refraction and reflection of sunlight.

The curved reflectors 272 and 272 'may be made of materials such as sus materials, reinforced with sunshine, or made of materials such as aluminum or glass mirrors reinforced with sunlight reflecting function. .

 A transparent synthetic resin substrate 277 formed of the solar power generation plate 145 and a photovoltaic device 270 separated from the transparent substrate 277 by a spacing interval 278. [

   Also, the sunlight described above rotates due to rotation of the earth, and the normal solar photovoltaic plate 145 is provided with suitable rotating means 150 so as to illuminate possible direct sunlight. However, the rotating means included in the solar light transmission device of the present invention enlarges a space for transferring sunlight that tilts in the lateral direction due to the movement of sunlight. As described in detail with reference to the accompanying drawings,

  A fixing rib 173 for fixing the magnetic field of the fixing plate 140 to the shaft 135 and a curved shape extending obliquely from both sides of the fixing rib 173, The wall 181 protruding from the left and right edges of the solar power generation plate 145 is disposed on both sides so as to interrupt the inclined ends of the curved reflectors 273 and 274 and the reflectors 273 and 274 The slope is formed by the wall 282 and the length of the sunlight oil tool 284 extending from the center of the sunlight oil tool 284 so as to reflect the inclined sunlight 279 'formed on both sides of the left and right sides of the sunlight oil tool 284 by the bending groove reflecting bands 298 provided with the bending grooves 279, In order to enlarge the section, both sides of the sunlight oil tool 284 The invention is provided so as to form an inclined wall (282) provided.

The convex-concave convex-concave-convex portions 294 are formed on the inner surfaces of the curved convex reflecting bands 298 and the curved reflecting bands 273 and 274 which are inclined to both sides so as to be formed by reflection of sunlight It is preferable to incorporate a reflector such as a stainless steel such as a mirror.

An induction recessed groove portion 288 (hereinafter, referred to as " induction groove portion ") that is formed to have a predetermined size to match the width of the fixing plate 140 fixed to the back surface of the solar power generation plate 145, And a rotating shaft 266 for dividing the fixing plate 140 into two parts. The rotating unit 150 will be described later. The sunlight transported to the sunlight refraction in the induction recessed trench 288, which is divided around the fixing table 287, passes through the flexible duct tube 297, which is connected to the lower end of each of the guide recessed trenches 288, And the sunlight irradiated to the induction recessed trench 288 is connected to the inner space of the flexible duct tube 297 by reflections and refraction phenomena, The duct duct 297 is connected to a duct pipe 299 made of a stainless steel material so as to be irradiated to the shade region 160 of the building 166 or the room 165 It is an invented constitution.

The material of the guide recessed portion 288, which is formed by bending the solar cell module 145 so as to be continuously arranged in the width region of the solar cell module 145 described above, is preferably provided by a bending process with a thin, And the solar duct connected by reflection and refraction in the guide recessed portion 288 is preferably a flexible duct pipe 297 formed of a stain with good curvature. The ends of the flexible duct pipe 297 are integrally weaved so as to be twisted and transferred to each other in the wall section of the building 166 to which the flexible duct pipe 297 connected to the respective induction grooves 288 is to be installed, By providing the concave and convex portion 294 that provides a good refraction process even in the curved state in the inner space of the duct for transmitting light in which the guided sunlight is formed by stain, the shaft 135 The shade area 160, the room 165, and the like, which are set so that sunlight introduced from a plurality of induction recessed trenches 288 matching the concave and convex grooves 288 are illuminated.

The guide recessed portion 288 described above includes a fixed rib 173 that fixes the guide groove portion 288 with the shaft 135 and a guide groove portion 288 that is formed at both sides of the fixed portion 287 formed as a center portion of the fixed rib 173. [ Curved reflecting bars 272 and 272 'projecting in a curved state and an induction groove 288 formed by a wall 281 for interrupting the ends of the curved reflecting bars 272 and 272' The sunlight is irradiated to the shade area 160 by the irradiation table 279 provided at the lower end of the sunlight refraction guide 276 of the inverted truncated type. That is, the structure is the same as that in which the induction recessed trenches 288 functioning as the solar oil mineral oil tool 284 described above are installed in a plurality of overlap in the width direction.

Hereinafter, a description will be made of another embodiment of the guide recessed portion 288 formed by bending the inner side of the fixed rib 173, as shown in FIG. 9, And a reflecting plate 254 made of a stampered metal material. The engaging rib 242 is formed in the middle of the inner side surface of the guide recessed portion 288 of the stainless steel metallic material. The second solar photovoltaic plate 245 is fixed to the second solar photovoltaic plate 245 so that the second solar photovoltaic panel 245 reflects the light by the reflective plate 254 of the solar stencil metal material, Is an invention provided to perform solar power generation.

Here, in order to ensure the transparency of sunlight, it is essential to irradiate the solar light with respect to the guide recessed portion 288 which is bent to a plurality of predetermined sizes so as to match the width of the shaft 135. Therefore, A transparent synthetic resin transparent substrate 285 formed on the transparent substrate 285 and a photovoltaic element 270 spaced apart from the transparent substrate 285 by a spacing interval 278, Is reflected by the reflection plate 254, and is provided so as to repeatedly perform solar power generation by the solar power generation plate 145 having the same area as the conventional one.

In addition, the solar photovoltaic plate 145 provided in the guide recessed trench 288 is an invention that provides the effect of drying and heating sunlight that is inevitably irradiated when sunlight is irradiated for a long period of time. In the present invention, Such as the air conditioner 160 or the basement room.

  In order to induce as much sunlight as possible into the shadow region 160 of the sunlight transmitted through the solar cell plate 145 to the roof 168 of the building 166, And a rotation unit 150 provided in the photovoltaic power generation unit 266. The photovoltaic power generation plate 145 is provided to rotate in a predetermined section by the movement of the sun.

However, in order to allow the moving sun in the sunlight oil tool 284 provided in the present invention to transfer as high a quality sunlight as possible to illuminate the shade area 160, By the side walls 281 of the sunlight oil tool 284 in a state where the sunlight is tilted effectively when the sunlight is inclined at morning or at sunset, The efficiency of the obscured state is reinforced.

When the length of the solar oil tool 284 is set to a sufficient length in the area of the roof 168 of the building 166 as described above, Installation is difficult.

 In order to provide the frame 130 provided in the fixing plate 140 with the rotational drive of the solar power generation plate 145 coupled with the shaft 135 to coincide with the direction of sunlight irradiation according to the movement of the sun, A cap 165 of a housing 163 which is fixed downward at the edge of a rotary shaft 266 which is rotationally driven by engaging the frame 130 with the shaft 135 and a cap 165 which is assembled at a cap 165 of the housing 163 A wheel 280 for engaging with a lower end of the column 195 protruding from the wheel 280 and a circumferential rail 290 to which the wheel 280 is interlocked are provided symmetrically with respect to each other.

Here, the provision of the photovoltaic panel 145 coupled with the frame 130 to the upper side of the shaft 135 with the rotary shaft 266 reduces the damage to the blowing strong wind while being installed in the air, It is preferable to provide a circumferential rail 290 in which the wheels 280 are interlocked and to be installed in a slightly oblique direction in an inclined direction so as to ensure maximum sunshine.

At both ends of the circumferential rail 290, a stability jaw 290 is provided to reinforce the stability of the rotation of the roller 280.

In addition, the photovoltaic panel provided as a column in the upper section of the frame is installed in the air so as to reduce the damage to wind blowing, and is installed in a slightly oblique state in an inclined direction so as to maximize the sunshine .

In the coastal area or mountainous area where it is difficult to supply the blast furnace, it is possible to improve the environment of surrounding facilities and to improve the economic efficiency of the energy generation by using the solar power generation plate for the power generation and at the same time, .

Although the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but variations and modifications may be made without departing from the scope of the present invention.

145: solar power generator plate 150: rotating means 160: shadow area
163: housing 272: curved reflecting zone 281: wall 284: solar mineral oil tool
270: solar photovoltaic element 254: reflector (light) 276: sunlight refraction guide
278: Separation section 282: Inclined wall 288: Induction groove section 280: Wheel
290: arcuate rail 297: duct duct 298: bending groove groove reflector

Claims (5)

The photovoltaic generation is performed on the roof 168 of the building 166 in which the indoor 165, the sunshine 162 and the shade region 160 are formed or the upper end of the column 195 projecting fixedly from the ground 155 And a frame 130 interlocked with the rotating unit 150 is mounted on a fixed plate 140 which is rotationally driven by engaging with a shaft 135 In the solar power generation plate 145,
A fixed rib 173 for fixing the fixed plate 140 to the magnetic field by a shaft 135, a curved reflecting plate 272 for projecting the curved state from both sides of the fixed rib 173, The solar light oil tool 284 formed by the wall body 281 for interrupting the end portion of the curved reflector 272 is formed at the lower end of the inverted truncated solar light refracting guide 276 so as to have a curved structure The irradiation table 279 is provided to irradiate sunlight to the shadow region 160,
A transparent substrate 277 made of a synthetic resin and formed of the solar power generation plate 145 and a transparent substrate 277 provided with a solar cell 270 provided with a photovoltaic device 270 spaced apart from the transparent substrate 277 by a spacing 278, A module for a photovoltaic panel. The method according to claim 1,
A fixing rib 173 for fixing the magnetic field of the fixing plate 140 to the shaft 135 and a curved elastic member 173 which is curved at both sides of the fixing rib 173, And a wall 282 inclined to both sides so as to intercept the inclined end portions of the curved reflectors 273 and 274, And an irradiation table 279 'curved to both left and right sides of the sunlight oil tool 284 by a bending groove reflection plate 298 provided at the central portion of the solar oil tool 284 as the irradiation table 279, And a photovoltaic transfer device provided for irradiating sunlight at an inclined place by forming the irradiation table (279 '). 3. The method according to claim 1 or 2,
The sunlight refraction guides 276 and 276 'having inverted truncated sections whose sections of the shaft 135 are divided into nuts by the fixing table 287 and the lower portions of the sunlight refraction guides 276 and 276' A duct duct 297 which is connected to the end of the duct duct 297 and is connected to the shade area 160 through the duct duct 299, Module for photovoltaic panel with transfer device. 3. The method according to claim 1 or 2,
The reflector 254 is provided with the induction recessed trench 288 formed in a rectangular shape and the intermediate wall 289 formed in the induction recessed trench 288 in a rectangular shape, , A second solar photovoltaic plate (245) formed in engagement with the engagement rib (242) formed in the middle of the guide recessed trench (288)
And a solar light transmission device provided as a reflection plate (254) attached to the inner side surface of the guide recessed trench (288). 3. The method according to claim 1 or 2,
The concave and convex portions 294 for reinforcing the curvature are provided on the end surface of the photovoltaic refraction guide 276,
A cap 165 of a housing 163 fixed downward at both side edges of the shaft 135 and a lower end of a column 195 protruding from the cap 165 of the housing 163, A module for a photovoltaic panel comprising a solar-powered device provided with an arc-shaped rail (290) to which a wheel (280) is driven.

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