KR20160079750A - Assembly block for solar power generator with enhanced power - Google Patents

Abstract

The present invention relates to an assembly block for a solar power generation plate with improved generative power. More specifically, the assembly block is coupled to a solar power generation plate, and provided to reflect solar light transmitted to the solar power generation plate, thereby enhancing generative power on the solar light generation plate.

Description

{Omitted} Assembly block for solar power generator,

The present invention relates to an assembling block for a solar power generating plate reinforced with power, and more particularly, to a solar power transmitting device coupled to a solar cell plate, in which sunlight transmitted through the solar cell is reflected by the solar cell, , And reinforce the generation power of the solar power generation plate.

Generally, in a shadow area formed by a solar photovoltaic panel installed on a roof of a building, cold weather or the like may be generated particularly in the winter season.

In addition, when the photovoltaic panel installed in the air is used for a long period of time, the sunlight is generated as sunlight to be applied to the sunlight. However, since the photovoltaic panel is made of metal, Although the wind power generation device is provided in the upper section of the photovoltaic device, the reinforcing effect on the power generation efficiency is continuously required.

In sunlight, the inner side of the reflector induces sunlight by using the same refraction as the reflection of the mirror. However, applying the refracted glass like the mirror to the solar panel is practically difficult due to economical problems.

In addition, solar PV panels with power plants are being developed in the direction of enhancing the transparency effect as much as possible, and this is a tendency to generate electricity in conjunction with indoor lighting as it is used for attaching to window frames of buildings .

In addition, a photovoltaic panel provided in a wind turbine constructed as wide as possible on a roof or a wall of a building is a structure that provides solar power generation in addition to solar power in the sun, The photovoltaic panel is designed for effective solar power generation efficiency, and it is for the effect of reinforcement of the rotational force by induction of wind force blowing when the wind power is blown, and it is equipped with a rotation driving device according to the movement of the sun.

     Here, the rotating means provided on the column for the photovoltaic panel effectively tracks the movement of the sunlight (10-2008-86530, 10-2011-0043713).

   In addition, since the duct pipe for transferring the sunlight is made of stainless steel or the like, workability for bending and reflection power of sunlight are formed well.

    In addition, the effective development of sunlight and wind power in the sky is based on the construction of wind turbines and photovoltaic power generation equipment installed on the ground or on the roof of a building, In the No. 0116558, a vortex phenomenon formed by rotation of the rotating blades blown from the air in the air is installed at the upper end of a support column provided at a predetermined distance and at a predetermined height for restoring the moving state of the wind power In a power generating facility and a rotating blade, a rotating force is generated only at the moment when the wind passes. In addition, since the power generating facility and the rotary wing are 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 power for sunlight exposed to the air, in the present invention, in particular, installation of a bearing, a support beam and a frame block so as to protrude from a support column, A supporting beam having a rotating means coupled to the end of the supporting column, and a solar power generating plate provided on the frame to induce wind power as well as solar power generation.

  The characteristics of the above wind power and photovoltaic power generation apparatus are that the photovoltaic power generation apparatus installed on the roof of the same height as the high-rise building is mainly fixed type, so that it is easy to use, but it is installed safely by the rotary noise of the rotary vane provided in the wind power generation apparatus It is a very difficult reality.

The present invention has been made to solve the problems as in the prior art, and it is an object of the present invention to provide a solar power generating apparatus of a solar power generating apparatus, which is installed on a roof of a building or installed on a wall of a building, And a body (inner side surface) of the curved reflector is divided into a plurality of spaced apart sections, each of which is provided with a power generation element to form a spacing interval so as to maintain a predetermined spacing between the spaced sections, So that the induced solar light is reflected not only on the lower irradiation side but also on the back side of the power generation device to provide the power to the solar power generation plate to be reinforced and at the same time the shade area of the building or the shaded area of the underground space This is to induce cool air induction to strengthen the solar power generation plate.

In addition, the present invention is provided to provide stable cooling of the solar power generation plate, especially during a hot period.

A photovoltaic power generation plate 145 and a fixing plate 140 for obliquely protruding to be fixed to a frame 130 coupled to an upper end of a column 175 protruding from the roof of the building or the fixing, A wind power inlet 141 and a wind power outlet 171 are formed at both ends of the guider wall 197 to form a rotation section 195 in a section of the rotation section 195, A rotary shaft 190 provided at an end of the rotary drum 190 to allow the rotary shaft 190 to be closed with a partition wall 187 and a rotary drum 192 coupled with the rotary shaft 190 as a center, In a wind power and solar power generation apparatus,

A photovoltaic device 250 for separating the transparent substrate 247 from the transparent substrate 247 by a spacing interval 248,

Curved reflecting bands 272 and 273 are formed on the rear surface of the synthetic resin transparent substrate 247 so as to project from the opposite sides of the fixed rib 254 and curved reflecting bands 272 and 273, And a wall 274 for interrupting the end portion of the solar energy oil tool 284. The irradiation base 279 is provided at a lower end portion of the solar energy oil tool 284 formed by a curved structure,

 The cool air introduced from the inlet 271 and the cool air introduced from the inlet 271 passes through the sunlight oil tool 284 and is discharged to the exhaust port 277 penetrating the solar power generation plate 145 The invention is provided.

And the sunlight is dispersed to the back surface of the solar power generation plate 145 by the uneven portion 287 provided in the irradiation table 279 so that the power generation device 250 is reinforced by the power generation.

The present invention relates to a solar cell module, which is constructed in such a manner that sunlight penetrating through a sunlight shining on a solar module mounted on a roof of a building and a solar power module installed on a roof of a building is guided to the reflection of a reflector provided in the guide groove, Which is configured to illuminate the sunlight.

   In addition, the sunlight guided by the reflection of the reflector is reflected on the back surface of the power plant, thereby reinforcing the economical efficiency of reinforcing the solar power generation effect.

1 is a partially cutaway perspective view of a conventionally-
Fig. 2 is a partial partial perspective view of the main part of the present invention
Fig. 3 is an assembled perspective view of the recess of Fig.
Fig. 4 is a sectional view taken along the line AA in Fig. 3,

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

 2 is a fragmentary perspective view of the main part of the present invention, FIG. 3 is an assembled perspective view of the recess of FIG. 2, and FIG. 4 is a cross- AA line cross-sectional view, and also a cross-sectional view of the operating state.

  Therefore, the present invention provides a wind power generator capable of generating a wind force capable of blowing wind abundantly on a roof, a sea, a coastal area, or a mountainous area of a building constructed in a wind power area where wind power is largely blown on the edge of a river or a road As an invention for providing a large capacity of power generation in the region, by means of a rotating means 150 coupled to rotate by the sun, and by rotational movement in the direction of wind force blowing by the wind force blowing at night or overcast, The slope is not shown to be driven by the rotation means 150 provided to guide the gradient of the power generation plate for the photovoltaic power generator 145 to the inlet 141 of the wind turbine generator 200. [ Respectively.

  In this case, when the sunlight and the wind force are generated at the same time, it is preferable that the solar power generation apparatus 145 is driven by the wind power first in the winter season and sunlight first in the summer season.

  A rotating unit 150 coupled to the pillar 175 protruded to be held at a predetermined height while being fixed to the ground, a frame 130 rotatably driven by the rotating unit, The photovoltaic plate 145 and the photovoltaic plate 145 are formed at appropriate angles for solar power generation at a predetermined angle.

   A rotary drum 165 coupled to a rotary shaft 160 installed in the rotary section 115 between the partition walls 187 so as to be formed in the wind power generator 200 as a main part of the present invention, An inlet port 141 and an outlet port 171 penetrating through both sides of the rotary drum 165 rotating in the inlet port 141 and the outlet port 171 to allow the wind power to move, The fixing plate 140 is slantingly provided so as to be fixedly installed on the wind power generating block 200,

  An inlet 141 and an outlet 171 are formed at both ends of the guider wall 197 so that a rotation section 115 is formed in the fixing plate 140. In addition, A plurality of rotor blades 166 are disposed in the circumferential direction of the rotary drum 165 in the longitudinal section of the rotary drum 165 coupled to the rotary shaft 160, To be inclined at regular intervals.

  A plurality of inflow openings 141 formed by a plurality of supporting walls provided at predetermined intervals in a moving section for the wind force which is a height section of the inflow opening 141 and the outflow opening 171 described above, It is provided to reinforce durability against structure.

This is a structure in which the wind power is provided so as to be blown upward in an upward direction along the upper surface of the solar power generation plate 105.

However, when the sunlight shining on the solar power generation plate 145 is irradiated to the shade area 160 formed by the building 165 on which the solar power generation plate 145 is installed in the winter, As an invention for promoting drying,

The substrate for the photovoltaic power generation plate 145 is used as a transparent substrate 277 made of a synthetic resin material having transparency. The transparent substrate 277 is provided with a spaced apart interval 278 The solar battery module 270 is used by being generated by sunlight shining on the solar power generation plate 145 by forming the solar battery 270 which is continuously and repeatedly provided in the left and right directions. Here, the photovoltaic power generation plate 145 is provided as a transparent substrate 277 through which sunlight is transmitted.

And the transparent substrate 277 fixedly coupled to the solar cell plate 145 is guided to the shadow region 160 by collecting the transmitted sunlight. Referring to the accompanying drawings, The frame 130 interlocked with the rotating unit 150 is mounted on the transparent substrate 277 which is rotationally driven by engaging with the shroud 135 so as to capture the maximum amount of sunlight while being fixedly installed in most of the ground. The solar cell module according to the present invention comprises:

  Accordingly, the photovoltaic power generation plate 145 and the fixing plate 140 are respectively projected obliquely so as to be fixed to the frame 130 coupled to the upper end of the column 175 protruding from the roof of the building, A wind power inlet 141 and a wind power outlet 171 are formed at both ends of the guider wall 197 so that a rotation section 195 is formed in the fixed plate 140, 195 are provided at both ends of the rotating drum 190 with a partition 187 and a rotary shaft 190. The rotary drum 192 is coupled with the rotary shaft 190 as a center, 194) at an equal interval is provided by the applicant's specification 10-2011-0019797.

  Accordingly, it is an object of the present invention to provide an additional object of the present invention to provide economical and marketability enhancement of the present invention by providing a solar cell plate 145 having a large area, In other words, in order to reinforce the additional utilization of sunlight reflected on the solar power generation plate 145, that is, to reinforce the solar power generation plate 145, 165), and as an invention for reinforcing the economical efficiency of sunlight by reinforcing the irradiation power to the formed shadow areas,

  A transparent conductive substrate 247 made of synthetic resin and formed of the solar cell plate 145 and a solar cell 250 separated from the transparent substrate 247 by a spacing interval 248,

  Curved reflecting bands 272 and 273 are formed on the rear surface of the synthetic resin transparent substrate 247 so as to project from the opposite sides of the fixed rib 254 and curved reflecting bands 272 and 273, And a wall 274 for interrupting the end portion of the solar energy oil tool 284 and the irradiation base 279 provided at the lower end portion formed by the curved solar energy oil tool 284 to be.

  The curved reflectors 272 and 273 are provided with concave and convex portions 287 for reinforcing curvature so that the roof top and the shade region 160 of the building on which the sunlight oil tool 284 is to be installed, It is desirable to reinforce the application force on the site.

 In addition, it is intended to reinforce the transmission efficiency of sunlight to the photovoltaic panel, and to prevent the phenomenon of heating of the photovoltaic panel during the heatwave, thereby reinforcing the power generation efficiency of the power generation device.

   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 .

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
187: partition wall 192: rotary drum 197: guider wall 199: conveying wall
200: Wind power generator 250: Solar power generator 271: Inlet
273: Curved reflection plate 274: Wall 284: Solar oil tool 287:

Claims (2)

A photovoltaic power generation plate 145 and a fixing plate 140 for obliquely protruding to be fixed to a frame 130 coupled to an upper end of a column 175 protruding from the roof of the building or the fixing, A wind power inlet 141 and a wind power outlet 171 are formed at both ends of the guider wall 197 to form a rotation section 195 in a section of the rotation section 195, A rotary shaft 190 provided at an end of the rotary drum 190 to allow the rotary shaft 190 to be closed with a partition wall 187 and a rotary drum 192 coupled with the rotary shaft 190 as a center, In a wind power and solar power generation apparatus,
A photovoltaic device 250 for separating the transparent substrate 247 from the transparent substrate 247 by a spacing interval 248,
Curved reflecting bands 272 and 273 are formed on the rear surface of the synthetic resin transparent substrate 247 so as to project from the opposite sides of the fixed rib 254 and curved reflecting bands 272 and 273, And a wall 274 for interrupting the end portion of the solar energy oil tool 284. The irradiation base 279 is provided at a lower end portion of the solar energy oil tool 284 formed by a curved structure,
The cool air introduced from the inlet 271 and the cool air introduced from the inlet 271 passes through the sunlight oil tool 284 and is discharged to the exhaust port 277 penetrating the solar power generation plate 145 A building block for a solar power generator with enhanced power. The method according to claim 1,
Wherein the sunlight is dispersed on the back surface of the solar power generation plate (145) by the uneven portion (287) provided in the irradiation table (279) so that the power generation element (250) is reinforced by the power generation power.

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