KR20150059459A - Structure having solar power generation unit - Google Patents

Abstract

The present invention relates to a structure having a solar power generation unit, comprising: a plurality of pillars installed at intervals; a power generation unit having support frames installed on the upper end of the pillars and a solar cell panel for generating electricity using sunlight; and a residence unit having a plurality of wall bodies installed between the pillars while being separated downward from the solar cell panel to prepare an inner space below the solar cell panel, and a ceiling member combined with the upper parts of the wall bodies to close the upper surface of the inner space. A solar cell panel is arranged on the support frames installed on the pillars at a position separated upward from a ceiling, and the shape of the solar cell panel does not restrict the ceiling shape of the structure. Thus, a standardized solar cell panel can be used, and therefore the structure having a solar power generation unit according to the present invention can reduce manufacturing costs. Moreover, the power generation efficiency of the solar cell panel is improved as the solar cell panel is rotated according to the radiation angle of sunlight by an angle adjusting means capable of adjusting the inclination angle of the solar cell panel between the pillars and the support frames.

Description

{Structure having solar power generation unit}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a building having a solar power generation unit, and more particularly, to a building having a solar power generation unit for generating electric power by installing a solar cell panel on a roof.

Generally, BIVP (Building Integrated Photovoltaic) is a technology to use solar cell as a building material and to use it as an exterior material for a building, and a building integrated solar PV module is a PV-photovoltaic module It is used variously as a curtain wall, an awning, a roof tile, an exterior material, and the like. Depending on the characteristics, it can be used for natural light and sunshine, and there is no need for additional site acquisition cost and construction cost for support, and also electric power generation is possible at the point where electricity is generated.

Meanwhile, when a building-integrated photovoltaic module is used as the exterior material of a building, a building-integrated photovoltaic module having various shapes is required depending on the design of the building. In this case, In the case of installing a solar power generation module, it is difficult to install a solar power module with a built-in building by mass production, so that there is a problem that a customized solar power module with integrated building is manufactured and used It was very expensive in terms of cost. In general, building integrated photovoltaic power generation modules are standardized and can be mass-produced. However, customized building integrated photovoltaic power generation modules must be manufactured by individual production methods because of their various forms. Therefore, There is a problem that a cost of 2 to 3 times or more is required as compared with the solar cell module.

In addition, when a photovoltaic module is used as the exterior material of a building, since the photovoltaic cell is fixed to the building, it is difficult to change the inclination angle of the photovoltaic cell according to the irradiation angle of the sunlight, There are disadvantages.

Korean Patent Laid-Open No. 10-2005-0123230: Relaxation structure of a hydrophilic space provided with a photovoltaic power generation system

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems and it is an object of the present invention to provide a photovoltaic power generation system in which a solar cell panel is provided in a support frame provided on a column at a position spaced upwardly from a roof, The object of the present invention is to provide a building having a unit.

According to an aspect of the present invention, there is provided a solar power generating unit comprising: a plurality of columns spaced apart from each other; a support frame installed at an upper end of the column; And a plurality of solar cells installed between the columns at a position spaced apart downwardly from the solar cell panel so that an inner space can be provided at a lower side of the solar cell panel, And a residential unit provided with a wall and a roof member coupled to an upper portion of the walls to close an upper surface of the internal space.

The support frame is installed on the column so as to be rotatable about a rotation center line extending in the left and right direction, and the power generating unit further includes an angle fixing unit for rotating the support frame to adjust the inclination angle of the solar cell panel .

Wherein the angle fixing portions are provided so as to protrude downward on the lower surface of the support frame at mutually spaced positions along the longitudinal direction of the pivot center line of the support frame with respect to the column, A plurality of angle regulating plates formed with a plurality of mutually spaced apart through-holes corresponding to the front-to-rear direction spacing along the front-rear direction, and penetrating through the through-holes of the angle regulating plates adjacent to the front and rear surfaces of the column, A plurality of fixing bolts fixing the support frame to the column and a plurality of fixing nuts fastened to the end portions of the fixing bolts passed through the through holes to fix the fixing bolts to the angle adjusting plates.

The angle adjusting plates are convex downward with respect to the lower surface of the support frame. The angular adjusting plates are disposed at intervals corresponding to the horizontal width of the column so that the support frame is prevented from being twisted with respect to the column when the support frame is rotated. It is preferable to be formed so as to be spaced apart.

The solar cell module according to the present invention is provided with a solar cell panel in a support frame installed on a column at a position spaced upward relative to the roof so that the shape of the solar cell panel is not limited to the roof shape of the building, It is possible to use a battery panel, thereby reducing manufacturing costs.

Further, angle adjusting means for adjusting the inclination angle of the solar cell panel is provided between the column and the support frame, so that the power generation efficiency of the solar cell panel is improved because the solar cell panel is rotated according to the irradiation angle of the sunlight.

1 is a perspective view of a building provided with a solar power generating unit according to the present invention,
FIG. 2 is a side view of a building provided with the solar power generating unit of FIG. 1,
Fig. 3 is an exploded perspective view of the power generating unit of Fig. 1,
4 is a side view of the power generating unit of Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a structure of a solar power generating unit according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 show a building 100 provided with a solar power generating unit according to an embodiment of the present invention.

Referring to FIG. 1, a building 100 provided with a solar power generating unit includes a plurality of columns 110 spaced apart from each other, a power unit installed at an upper end of the column 110 and generating electricity through incident sunlight And a residential unit 300 installed in a column 110 under the power generation unit 200 and having an internal space.

The column 110 extends in the vertical direction, and a flange member 111 is provided at the lower end so as to be fixed to the foundation concrete layer provided on the ground. The flange member 111 has a through hole 234 through which the fixing bolt 232 passes. The fixing bolt 232 is bolted to the upper surface of the foundation concrete layer through the flange member 111 to fix the column 110 to the foundation concrete layer. At the upper end of the column 110, a coupling bracket 112 is installed so that a support frame 210 of a power generation unit 200, which will be described later, is rotatably installed.

Referring to FIG. 1, two groups of four pillars 110 spaced apart from each other in the left-right direction are installed in the base concrete layer so as to be spaced apart from each other in the longitudinal direction. The number and arrangement directions of the pillars 110 are not limited to the illustrated examples, but may be variously applied depending on the area and shape of the power generation unit 200 and the residential unit 300.

The power generating unit 200 includes a support frame 210 mounted on the upper end of the column 110, a solar cell panel 220 mounted on the support frame 210 and generating electricity through incident sunlight, The power generating unit 200 includes an angle fixing unit 230 that rotates the support frame 210 to adjust the inclination angle of the solar cell panel 220.

The support frame 210 includes a plurality of first support bars 211 extending in the front-rear direction and spaced apart from each other along the left-right direction, a first support bar 211 extending in the left-right direction, And a plurality of second support bars 212 fixed to the upper surfaces of the first support bars 211. At this time, a part of the first support bars 211 is rotatably installed around a virtual rotation center line extending in the left-right direction on a coupling bracket 112 provided at the upper end of the column 110 at the center.

The solar cell panel 220 includes a plurality of solar cells mounted on the second support bars 212. The solar cell panel 220 generates electricity by sunlight incident thereon, and the generated electricity is charged in a storage battery (not shown). The electricity charged in the battery is supplied to the electronic equipment installed in the residential unit 300.

The angle fixing portion 230 includes a plurality of angle regulating plates 231, a plurality of fixing bolts 232, and a plurality of fixing nuts 233.

A plurality of angular adjustment plates 231 are fixed to the first support bars 211 so as to be spaced apart from each other along the longitudinal direction of the pivotal center line of the support frame 210 while being opposed to each other with respect to the pillar 110. The angle regulating plate 231 is formed in a plate shape having a predetermined thickness and is formed in an arc shape so as to be convex downward with respect to the first support bar 211. At this time, the front and rear ends of the angle regulating plate 231 are respectively fixed at mutually opposite positions with respect to the rotation center line.

The angle regulating plate 231 has a pair of through holes 234 formed therein so that the fixing bolt 232 can be inserted therethrough. The plurality of groups are spaced apart from each other along the front-rear direction. The pair of through-holes 234 of one group are formed such that the distance between the centers of the pair of through-holes 234 is larger than the distance between the centers of the fixing bolts 232 so that the rotation angle of the support frame 210 can be fixed firmly by the fixing bolts 232 when the fixing bolts 232 are inserted 110 in the longitudinal direction.

The angle adjusting plates 231 are formed on the upper surface of the column 110 so as to guide the support frame 210 to prevent the support frame 210 from being twisted with respect to the column 110 when the support frame 210 rotates. And are spaced apart from each other at an interval corresponding to the width in the left-right direction.

A plurality of fixing bolts 232 are inserted into a pair of through-holes 234 forming a group. The operator rotates the support frame 210 at a predetermined angle with respect to the column 110 and fixes the fixing bolts 232 to the through holes 234 of the angle regulating plates 231 adjacent to the front and rear surfaces of the column 110 Respectively. The inclination angle of the supporting frame 210 with respect to the column 110 is fixed according to the positions of the through holes 234 into which the fixing bolts 232 are inserted.

The fixing nuts 233 are respectively fastened to the ends of the fixing bolts 232 penetrating the through holes 234 to fix the fixing bolts 232 to the angle adjusting plates 231. At this time, it is preferable that the fixing nut 233 is formed to have a larger cross-sectional area than the through-hole 234.

The housing unit 300 includes a plurality of solar cells 220 installed between the columns 110 at a position spaced downwardly relative to the solar cell panel 220 so that an internal space can be provided below the solar cell panel 220 A roof member 302 coupled to an upper portion of the walls 301 to close an upper surface of the inner space and a roof member 302 coupled to an upper portion of the walls 301 to close a lower portion of the inner space. (Not shown).

The wall body 301 is formed between the opposed pillars 110, and a plurality of the wall bodies 301 are arranged along the menopause so that the internal space can be provided. Although the wall 301 is not shown in the drawing, a heat insulating material is buried inside. Meanwhile, windows are installed in some of the walls 301 so as to allow sunlight to enter the inside space, and doors (not shown) are installed in one of the walls 301 so that an operator can enter and exit the interior space .

The roof member 302 is provided on the upper surface of the walls 301 and is formed to have an area larger than the cross-sectional area of the internal space. The roof member 302 is preferably formed to be inclined so that the front end portion is positioned below the rear end portion so that the rainwater can be easily discharged to the lower portion.

The bottom member is coupled to the lower portion of the wall body 301 and is formed to have an area larger than the cross-sectional area of the internal space. Although the bottom member is not shown in the figure, a heating means such as a hot water pipe is provided therein.

The residential unit 300 is manufactured using the building 100 provided with the solar power generating unit constructed as described above by using the column 110 supporting the solar cell panel 220 to manufacture the residential unit 300 The cost can be saved.

The structure 100 provided with the photovoltaic power generation unit is provided with a solar cell panel 220 on a supporting frame 210 installed on a column 110 spaced upward from the roof, The shape is not limited to the roof shape of the building 100, so that it is possible to use the standardized solar cell panel 220, thereby reducing the manufacturing cost. An angle adjusting means for adjusting the inclination angle of the solar cell panel 220 is provided between the column 110 and the support frame 210 to rotate the solar cell panel 220 according to the irradiation angle of the sunlight. The power generation efficiency of the panel 220 is improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

100: Buildings with solar power units
110: Column
111: flange member
112: Coupling bracket
200: power generation unit
210: Support frame
211: first support bar
212: second support bar
220: Solar panel
230: angle fixing portion
231: Angle adjustment plate
232: Fixed bolt
233: Fixing nut
300: residential unit
301: Wall
302: roof member

Claims (4)

A plurality of columns spaced apart from each other;
A power generation unit provided on the support frame and provided with a solar cell panel for generating electricity through incident sunlight;
A plurality of walls provided between the columns at a position spaced downwardly with respect to the solar cell panel so that an inner space can be provided on the lower side of the solar cell panel; And a residential unit having a roof member coupled to an upper portion of the residential unit.
The method according to claim 1,
Wherein the support frame is provided on the column so as to be rotatable about a rotation center line extending in the left-right direction,
Wherein the power generating unit further comprises an angle fixing unit configured to rotate the support frame to adjust an inclination angle of the solar cell panel.
3. The method of claim 2,
The angle fixing portion
Wherein the supporting frame is provided to project downward from a lower surface of the supporting frame at mutually spaced positions along the longitudinal direction of the pivot center line of the supporting frame, A plurality of angle regulating plates formed with a plurality of mutually spaced apart pairs of through-holes spaced apart in the front-rear direction,
A plurality of fixing bolts inserted through the through holes of the angle adjusting plates adjacent to the front and rear surfaces of the column to fix the supporting frame to the column,
And a plurality of fixing nuts fastened to the end portions of the fixing bolts passed through the through holes to fix the fixing bolts to the angle adjusting plates.
The method of claim 3,
The angle adjusting plates are convex downward with respect to the lower surface of the support frame. The angular adjusting plates are disposed at intervals corresponding to the horizontal width of the column so that the support frame is prevented from being twisted with respect to the column when the support frame is rotated. Wherein the solar cell unit is formed to be spaced apart from the solar cell unit.

Images