KR20140141763A - Construction panel for using photovoltaic power generation and wall structure for using the same - Google Patents

Abstract

The present invention relates to a construction panel for photovoltaic power generation and a wall structure using the same. A construction panel for photovoltaic power generation according to the present invention comprises: photovoltaic cells for converting photovoltaic energy to electric energy; a transmission protection panel made from a light transmission material, provided to the light receiving surfaces of the photovoltaic cells and protecting the photovoltaic cells; a bracket coupled to the transmission protection panel such that the photovoltaic cells can expose the light receiving surfaces through the transmission protection panel; and fixing members for fixing the bracket to the wall member of a building structure, wherein a plurality of the photovoltaic cells are fixed by the fixing members in a state, in which the photovoltaic cells are arranged on the wall member of the building structure, so as to form the exterior wall of the building structure. According to the present invention, the integration degree of the photovoltaic cells can be increased because the photovoltaic cells are provided using the wall member of the building structure, thereby maximizing the power generation capacity. In addition, the attachment construction of the photovoltaic cells and the mutual connection of the photovoltaic cells are simple, such that the connection portions among the photovoltaic cells do not spoil the beauty and the sealing of the connection portions can be readily treated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a construction panel for a photovoltaic power generation system,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a building panel for solar power generation and a wall structure using the same, and more particularly, to a building panel for solar power generation that enables solar photovoltaic .

Generally, photovoltaic power generation generates electricity using solar light. Such photovoltaic power is one of renewable energy together with wind power, biomass, geothermal power, hydropower, and tidal power. Because it is safer, environmentally friendly energy, and power generation cost is falling, it is expected to grow the most.

Solar cells used in solar power generation are also called solar cells. When sunlight is incident, electrons and holes are generated in the n-type semiconductor and the p-type semiconductor, and thus generated electrons and holes move to the electrodes When the electrodes are connected to each other by the photovoltaic effect, the electrons move and the electricity flows.

Although such a solar cell has the above-described advantages, there is a need to secure a space for installation, and a lot of measures have been taken for this purpose. For example, Korean Registered Utility Model No. 20-0458057 (2012.01.09 &Quot; Sunshine & window system including sunshade for solar light collecting and control "), which is a solar cell that forms for solar power generation, and an outdoor sunshade Wow; A support base including a side support for supporting and fixing the outdoor undercover on both sides thereof and a fixing plate for attaching the side support to the building; A roof part formed below the outdoor roof part and serving as a skylight of a building; An indoor oval portion formed at a lower end of the indoor side connected to the rim portion; And a wall opening formed on the wall of the building below the outdoor canopy to function as a window.

However, although such a conventional skylight and window system uses a solar cell, the window system occupies a small portion in the building structure, and thus has a limitation in increasing the power generation capacity, and the structure for the construction of the solar cell is not disclosed at all It is difficult to expect the improvement of the workability, and there is a problem that it is hindering the inherent function of the building structure by being installed in the window.

In order to solve the above-mentioned problems, the present invention can increase the degree of integration of the solar cell by installing the solar cell using the wall of the building structure, thereby increasing the capacity of the solar cell, It is an object of the present invention to facilitate the construction and interconnection of the solar photovoltaic cells and to prevent the aesthetics of the solar photovoltaic cells from being deteriorated by the connection portions of the solar photovoltaic cells,

According to an aspect of the present invention, there is provided a solar cell for converting solar energy into electric energy; A transmission protective panel provided on a light incident surface of the solar cell, the solar cell protecting the solar cell and made of a light transmitting material; A bracket coupled to the transparent protective panel so that the solar cell can expose a light incident surface through the transparent protective panel; And a fixing member for fixing the bracket to the wall of the building structure, wherein the solar cell is fixed by the fixing member in a state where the solar cell is arranged on the wall of the building structure, A building panel for solar power generation is provided.

The bracket is formed as a pair so as to be coupled to both the solar cell and the transmission protective panel, and each of the brackets is provided with a fitting portion for fitting the side of the solar cell and the transmission protective panel, And a fixing hole into which the fixing member, which is formed in a nail or bolt shape, is inserted into the protruding portion.

The solar cell may be provided such that an electrode wire for connection to another solar cell or for transmission of electric power is drawn out laterally from any one or all of the brackets.

And a cushioning member provided at a portion of the solar cell and the transmission protection panel in contact with the fitting portion to absorb vibrations or shocks.

The fixing member is formed in a nail or bolt shape, and the ring-shaped packing member is fitted, so that the bracket can be fixed so that the packing member is interposed.

According to another aspect of the present invention, there is provided a building comprising: a stationary frame installed to be exposed outside an inner wall of an architectural structure; And a building panel for solar power generation constituting an outer wall of the building structure by being fixed to a plurality of the fixed frames, the solar panel for solar power generation comprising: a solar cell for converting solar energy to electric energy; A transmission protective panel provided on a light incident surface of the solar cell, the solar cell protecting the solar cell and made of a light transmitting material; A bracket coupled to the transparent protective panel so that the solar cell can expose a light incident surface through the transparent protective panel; And a fixing member for fixing the bracket to the fixed frame.

The bracket is formed as a pair so as to be coupled to both the solar cell and the transmission protective panel, and each of the brackets is provided with a fitting portion for fitting the side of the solar cell and the transmission protective panel, And a fixing hole into which the fixing member, which is formed in a nail or bolt shape, is inserted into the protruding portion.

The solar cell may be provided such that an electrode wire for connection to another solar cell or for transmission of electric power is drawn out laterally from any one or all of the brackets.

And a cushioning member provided at a portion of the solar cell and the transmission protection panel in contact with the fitting portion to absorb vibrations or shocks.

The fixing member is formed in a nail or bolt shape, and the ring-shaped packing member is fitted, so that the bracket can be fixed so that the packing member is interposed.

The solar cell is arranged so as to form a plurality of rows, and is fixed to the stationary frame by heat and heat between the rows and the columns. The solar cell is drawn out from the solar cell, So that the electrode wire is cut off from the outside.

The filling material may be formed such that the fixing member inserted into the fixing hole, which is connected to each other by overlapping portions protruding from the bracket facing each other, is embedded in the inside.

According to the building panel for solar power generation according to the present invention and the wall structure using the same, the degree of integration of the solar cell can be increased by installing the solar cell using the wall of the building structure, It is easy to attach the photocells and to interconnect the solar cells, to prevent the aesthetics from being hindered by the connection portions between the solar cells, and to seal the connection portions easily.

1 is a perspective view showing a building panel for solar power generation according to an embodiment of the present invention,
2 is a perspective view illustrating a wall structure using a building panel for solar power generation according to an embodiment of the present invention,
3 is a side view showing a wall structure using a building panel for solar power generation according to an embodiment of the present invention,
4 is a side cross-sectional view showing a main part of a wall structure using a building panel for solar power generation according to an embodiment of the present invention.

Since the present invention can have various embodiments by various modifications, specific embodiments will be described in detail with reference to the drawings. It is to be understood that this particular embodiment is not intended to limit the invention but includes all modifications, equivalents, and alternatives falling within the spirit of the invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals are used to designate identical or corresponding elements, and redundant description thereof will be omitted do.

1 is a perspective view illustrating a building panel for solar power generation according to an embodiment of the present invention.

1, a solar panel 100 according to an embodiment of the present invention includes a solar cell 110, a transmission protection panel 140, a bracket 120, and a fixing member 130 And the sun photocells 110 are fixed by the fixing member 130 in a state where a plurality of solar cells 110 are arranged on the wall of the building structure 1 (shown in FIG. 2), so that the outer wall of the building structure 1 can be formed. Here, the wall may be a part of the wall, may be a fixed frame 200 (as shown in FIG. 2) or may be exposed to the outside as in the present embodiment, It can be a supporting structure.

The solar cell 110 may be a solar cell that uses photovoltaic effect and is used in solar power generation to generate electricity by converting solar energy into electric energy. The solar cell 110 may be a silicon solar cell or a thin film solar cell, for example, a passive emitter (PERL), a buried contact solar cell (BCSC), an integrated backsize contact cell (IBC) , A polycrystalline silicon solar cell having a simple structure and having the same structure as C-Si, and an i-layer without impurities between p and n are formed Amorphous silicon thin-film solar cell having a structure can be applied. The thin film solar cell may be an amorphous silicon thin film, a CDTe compound thin film, a CIGS compound thin film, or the like. Various other types of solar cells may be used for the solar cell 110.

The solar photovoltaic cell 110 may store electricity generated from itself or through the electrode wire 111 drawn through the bracket 120 through a battery or the like, or may be supplied directly to a conventional power consumption device. Also, since the power stored in the battery corresponds to the direct current, it can be converted to AC by using the inverter and supplied to the power consumption device. The solar photovoltaic cell 110 can be easily connected to the other solar photovoltaic cell 110 through a direct connection of an electrode wire (not shown) or a connection using a socket, It can easily be sealed for airtightness.

The transmission protection panel 140 is provided on the light incident surface of the solar cell 110 and protects the solar cell 110 from contact or impact with an external material or an object and is made of a light transmissive material. And may be made of tempered glass.

The bracket 120 is coupled together with the transmission protection panel 140 so that the solar cell 110 can expose the light incidence surface through the transmission protection panel 140 and is made of a metal such as aluminum, Ceramic or synthetic resin.

The brackets 120 serve to mediate the solar cell 110 to the building structure 1. The brackets 120 may have a variety of structures. For example, the solar cell 110 and the transmission protection panel 140 may have a structure, And the side of the solar cell 110 and the transmission protection panel 140 may be fitted to the side of the solar cell 110. The side of the solar cell 110 and the side of the permeation protection panel 140 may be formed in the side of the insertion part 122, A fixing hole 121 into which a fixing member 130 made of a nail or a bolt is inserted may be formed at a portion protruding in a direction of the fixing hole. Here, the fitting part 122 may have a cross-sectional structure of a "C" shape so that the solar cell 110 and the transmission protection panel 140 are fitted.

On the other hand, the solar cell 110 may be provided such that the electrode wire 111 for connection with another solar cell 110 or electricity is drawn out from any one or all of the brackets 120 in the lateral direction. At this time, the bracket 120 may be formed with a lead-out hole (not shown) for drawing out the electrode wire 111.

The fixing member 130 may fix the bracket 120 to the wall of the building structure 1 (shown in FIG. 2), which may have a nail shape as in the present embodiment, or may have a bolt shape as another example, It is not limited to this, but may be formed of various members such as pins and brackets. Also, the fixing member 130 can fix the bracket 120 so that the packing member 131 is interposed therebetween by fitting a ring-shaped packing member 131 having an insertion hole 132 formed at the center thereof. Here, the packing member 131 may be made of synthetic rubber such as natural rubber, neoprene, or an elastic material such as silicone.

Cushioning members 150 and 160 may be provided at portions of the solar cell 110 and the transmission protection panel 140 that are in contact with the fitting portion 122 to absorb vibrations or shocks. Here, the buffer members 150 and 160 may be made of synthetic rubber such as natural rubber or neoprene, or an elastic material such as silicone, and may have a plate shape or a sheet shape.

FIG. 2 is a perspective view illustrating a wall structure using a solar panel for a solar power generation according to an embodiment of the present invention. FIG. 3 is a perspective view illustrating a wall structure using a solar panel for a solar power generation according to an embodiment of the present invention. FIG.

2 and 3, the wall structure 10 using a building panel for solar power generation according to an embodiment of the present invention includes a fixed frame 200 and a building panel 100 for solar power generation can do.

The fixed frame 200 is installed so as to be exposed to the outside of the inner wall of the building structure 1. Here, the inner wall may correspond to a masonry wall 400 formed of a lamination of bricks or the like as in the present embodiment, but may be a wall structure of various materials and structures. The fixed frame 200 may be installed to be spaced from the inner wall of the building structure 1 or may be disposed in contact with the inner wall of the building structure 1. The upper and lower portions may be slabs, Or may be fixed to the inner wall of the building structure 1 by a connecting member serving as a spacer or the like.

The fixed frame 200 may have a structure in which a plurality of horizontal frames 210 and a plurality of vertical frames 220 are connected to each other as in the present embodiment, , And may be formed of various types of structures including the plate-like structure. Here, the horizontal frame 210 and the vertical frame 220 may be made of a wood material.

The stationary frame 220 is installed over a part of the building structure 1 excluding the area of the window 2 provided by the window frame 3 so that the solar panel 100 is excluded from the area of the window 2 Quot ;. < / RTI >

The building panels 100 for solar power generation are fixed to a plurality of the fixed frames 200 so as to form an outer wall of the building structure 1. In the same manner as the building panel 100 for solar power generation according to the present invention Do. That is, as described above, the building panel 100 for solar power generation comprises a solar cell 110 for converting solar energy into electric energy, a solar cell 110 installed on the light incident surface of the solar cell 110, A transparent protective panel 140 made of a light transmissive material and a bracket 140 coupled to the transparent protective panel 140 to expose the light incident surface through the transparent protective panel 140, A fixing member 130 for fixing the bracket 120 to the fixed frame 200,

1, the brackets 120 may be coupled to both the solar cell 110 and the transmission protection panel 140, and the solar cell 110 and the transmission protection panel And a fixing hole 121 in which a fixing member 130 in the form of a nail or a bolt is inserted is inserted into a portion protruding laterally from the fitting portion 122, Can be formed. At this time, the solar cell 110 may be provided so that the electrode wire 111 for connecting to another solar cell 110 or for transferring electricity may be drawn laterally from any one or all of the brackets 120. Buffer members 150 and 160 are provided at portions of the solar cell 110 and the transmission protection panel 140 that are in contact with the fitting portion 122 to absorb vibrations and shocks. The fixing member 130 may be formed in a nail or bolt shape and the bracket 120 may be fixed such that the packing member 131 is interposed by fitting the ring-shaped packing member 131 therebetween.

4, the filler 300 may be disposed between the brackets 120. The filler 300 may be arranged so that the solar cells 110 form a plurality of rows, And the electrode wire 111 positioned between the row and the row formed by the bracket 120 is drawn out from the solar cell 110, The electrode wire 111 and the connecting portion of the electrode wire 111 and the connecting portion thereof can not only damage the aesthetics but also enable sealing. The filler material 300 may be silicon, mortar, or the like. Therefore, the solar cell 110 can be arranged vertically and horizontally on the fixed frame 200, so that the bracket 120 is arranged to correspond to each of the solar cells 110, And can be fixed to the fixed frame 200 with the fixing member 130.

In addition, the filler 300 may be formed such that the fixing member 130 inserted into the fixing hole 121, which is connected to each other by overlapping portions protruding from the bracket 120 facing each other, is embedded in the inside. Therefore, it is possible to easily perform the fixing operation of the bracket 120 by the fixing member 130 and to prevent the appearance of the fixing member 130 from being exposed to the outside, Thereby preventing corrosion or contamination by moisture or foreign matter.

According to the construction panel for solar power generation according to the present invention and the wall structure using the same, the fixing frame 200 is installed outside the masonry wall 400 included in the wall of the building structure 1, The solar cell 110 is arranged to be horizontally and vertically arranged by the bracket 120 and the fixing member 130 so that the attachment of the solar cell 110 can be facilitated and the degree of integration of the solar cell 110 The power generation capacity can be increased.

An electrode wire 111 for connection and electric conduction of the solar cell 110 and a fixing member 130 for fixing the bracket 120 are formed by the filling material 300 which is filled and hardened between the brackets 120. [ So that the aesthetics are not damaged by the connection portion between the solar cells 110, and the sealing process of such connection portions is facilitated.

Although the present invention has been described with reference to the accompanying drawings, various modifications may be made without departing from the scope of the present invention. Accordingly, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

1: Building Structure 2: Window
3: Window frame 110: Sun photocell
111: electrode wire 120: bracket
121: Fixing hole 122:
130: fixing member 131: packing member
132: insertion hole 140: transmission protection panel
150, 160: buffer member 200: fixed frame
210: horizontal frame 220: vertical frame
300: Filler material 400:

Claims (12)

A solar cell that converts solar energy into electrical energy;
A transmission protective panel provided on a light incident surface of the solar cell, the solar cell protecting the solar cell and made of a light transmitting material;
A bracket coupled to the transparent protective panel so that the solar cell can expose a light incident surface through the transparent protective panel; And
And a fixing member for fixing the bracket to the wall of the building structure,
Wherein the solar cell is fixed by the fixing member in a state where the solar cells are arranged in a plurality of walls of the building structure, thereby forming an outer wall of the building structure. The method according to claim 1,
The bracket
And a pair of protrusions formed on both sides of the solar cell and the transmission protection panel so as to sandwich the solar cell and the side of the transmission protection panel, And a fixing hole into which the fixing member, which is formed in a nail or bolt shape, is inserted. 3. The method of claim 2,
In the solar cell,
Wherein an electrode wire for connecting to another solar photocell or for transferring electric power is drawn out laterally from any one or all of the brackets. The method according to claim 2 or 3,
Further comprising a cushioning member provided at a portion of the solar cell and the transparent protective panel that is in contact with the fitting portion to absorb vibrations and shocks. 3. The method according to claim 1 or 2,
Wherein:
And the bracket is fixed so that the packing member is interposed between the packing member and the ring-shaped packing member. A stationary frame installed to be exposed outside the inner wall of the building structure; And
And a plurality of building panels fixed to the fixed frame to form an outer wall of the building structure,
The building panel for solar power generation comprises:
A solar cell that converts solar energy into electrical energy;
A transmission protective panel provided on a light incident surface of the solar cell, the solar cell protecting the solar cell and made of a light transmitting material;
A bracket coupled to the transparent protective panel so that the solar cell can expose a light incident surface through the transparent protective panel; And
And a fixing member for fixing the bracket to the fixed frame. The method according to claim 6,
The bracket
And a pair of protrusions formed on both sides of the solar cell and the transmission protection panel so as to sandwich the solar cell and the side of the transmission protection panel, And a fixing hole into which the fixing member made of a nail or a bolt is inserted are formed. 8. The method of claim 7,
In the solar cell,
And an electrode wire for connecting to another solar photocell or for transferring electric power is drawn out laterally from any one or all of the brackets. 9. The method according to claim 7 or 8,
Further comprising a cushioning member installed at a portion of the solar cell and the transparent protective panel in contact with the fitting portion to absorb vibrations and shocks. 8. The method according to claim 6 or 7,
Wherein:
And the bracket is fixed so that the packing member is interposed between the packing member and the ring-shaped packing member. 9. The method according to claim 7 or 8,
The solar cell is arranged so as to form a plurality of rows, and is fixed to the stationary frame by heat and heat between the rows and the columns. The solar cell is drawn out from the solar cell, So that the electrode wire is cut off from the outside. The wall structure using the building panel for solar power generation according to claim 1, 12. The method of claim 11,
Wherein the filler
Wherein the fixing member inserted into the fixing hole, which is connected to each other by overlapping portions protruding from the bracket facing each other, is embedded in the inside of the fixing member.

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