KR20220110017A - Balcony fixing insulation structure of building integrated photovoltaic module - Google Patents

Abstract

The present invention provides a balcony installation insulation structure of a building-integrated solar module in order to efficiently obtain an energy source by solar power generation along with an insulation function of a building by finishing the construction of a solar panel on an outer wall of a window side of a building balcony. The balcony installation insulation structure comprises: a concrete wall forming an outer wall surface of a balcony of a building and forming an opening penetrating inside and outside; a balcony window unit installed corresponding to the opening of the concrete wall and having a window frame and a balcony window; an external insulation material installed corresponding to the outer surface of the concrete wall, wherein the external insulation material is attached to the outer surface except for upper and lower edges of the concrete wall; a thermal bridge barrier interposed between the concrete wall and the window frame and coupled to butt-contact with one end of the external insulation material at the upper and lower edges of the concrete wall; and a solar panel unit which is installed to finish the exterior in correspondence with the external insulation material and generates electric energy by receiving sunlight. The solar panel unit includes a solar module and a gap support for supporting and fixing the solar module on the concrete wall and fixing the solar module at a distance from the external insulation material.

Description

Balcony fixing insulation structure of building integrated photovoltaic module

The present invention relates to a balcony installation insulation structure of a building integrated photovoltaic module (BIPV). It relates to a balcony installation insulation structure of a building-integrated photovoltaic module capable of efficiently acquiring an energy source through photovoltaic power generation.

In general, residential buildings such as apartments and officetels, as well as office buildings, windows and doors are installed for ventilation and light, and a balcony is provided in contact with the exterior wall of the building to create an additional buffer space separated from the interior.

In recent years, it is a trend to encourage the construction of buildings to minimize energy consumption by increasing the heating and cooling efficiency by improving the insulation performance.

Insulation methods for buildings include internal insulation, intermediate heat, and external insulation methods. The internal insulation method causes thermal bridges due to the breakage of the insulation material. In order to improve the energy efficiency of the building by installing insulation on the outer surface of the concrete wall after the foundation construction, the external insulation method is being widely applied to improve the building energy performance and to block the occurrence of thermal bridges.

In addition, in the method of installing an insulating material in a building, the window is installed with a set size so that the window penetrates the wall of the building. It consists of a frame that can be installed. At this time, the external insulation material is installed on the exterior wall surface of the concrete except for the windows to secure the insulation performance.

On the other hand, in recent buildings, in order to reduce energy consumption costs due to the use of internal electricity, a photovoltaic system that absorbs the light energy of sunlight and converts it into electric energy without environmental pollution is installed and used. are doing

As a prior art disclosed in relation to the insulation structure around the windows and doors of the building as described above, Republic of Korea Patent Publication No. 1282458 (2013.06.28.) discloses a concrete wall forming the outer wall surface of the building; a window part installed through the concrete wall; a heat transfer blocking member having a predetermined thickness interposed between the chassis frame and the concrete wall of the window and door to block mutual thermal bridges; It is installed to be inclined downward from the outer surface of the chassis frame and comprises a drip tray for preventing water flowing through the windows and doors from permeating between the chassis frame and the heat transfer blocking member and the heat transfer blocking member and the wall, wherein the drip tray is the outer surface of the chassis frame and a coupling part fixedly coupled by a coupling means, an inclined part formed to be inclined downwardly from the coupling part, and a fall induction part extending in a vertical direction from the inclined part, and the coupling part of the drip tray is a first coupling part in parallel with each other. and a second coupling part, wherein the first coupling part is fixed in close contact with the outer surface of the chassis frame, and the second coupling part is inserted and fixed into a groove formed inside the chassis frame, thereby forming a thermal bridge between the chassis frame and concrete. It is known that windows and doors for buildings that are very excellent in insulation effect by blocking are known.

However, the above prior art is applied to the balcony because the heat transfer blocking member applied between the chassis frame and the concrete of the window and door is configured to have a volume with sufficient height while in contact with the entire thickness corresponding to the thickness of the chassis frame, and then wrap it with an external insulation material. There was a problem in that it was difficult to apply to the construction of balcony concrete and external insulation materials having a narrow chin height due to the balcony window.

In addition, since the system structure for photovoltaic power generation has to be installed in a separate building location, it is difficult to secure a space to install the photovoltaic power generation system in a limited building, the harmony with the building is not aesthetically pleasing, and the constructability and price due to separate installation There was a problem that the competition rate decreased.

KR Registered Patent Publication No. 10-1282458 (2013.06.28.)

The present invention is intended to solve the above problems, and is configured to be finished and applied with a solar panel to the exterior wall of the balcony concrete while installing a thermal insulation material integrated with the external insulation material between the balcony concrete wall and the windows. A building that minimizes the application area of the thermal barrier material as much as the space and increases the insulation effect, promotes aesthetic beauty, as well as enhances the workability of the product, facilitates securing a space to install the solar power generation system, and can increase the amount of electricity that can be used in the building To provide a balcony installation insulation structure of an integrated solar module, there is an object.

The balcony installation insulation structure of the building-integrated photovoltaic module proposed by the present invention comprises: a concrete wall forming an outer wall surface of a building balcony and forming an opening penetrating inside and outside; a balcony window unit installed corresponding to the opening of the concrete wall and having a window frame and a balcony window; an external insulating material installed to correspond to the outer surface of the concrete wall and attached to the outer surface except for the upper and lower edges of the concrete wall; a heat-crossing barrier interposed between the concrete wall and the window frame and coupled to one end of the external insulator in butt contact with the upper and lower edges of the concrete wall; A solar panel unit for generating electric energy by receiving sunlight and receiving sunlight to finish the exterior in response to the external insulation material; It is supported and fixed on the but made including a gap support for fixing the photovoltaic module to be positioned at a distance from the external insulating material.

The heat cross-blocking material is coupled in abutment with one end of the external insulating material, wraps around the upper and lower corners of the concrete wall to form a structure extending in a right angle direction to be in contact with the concrete wall, but has a “L” or “B” cross-sectional shape.

The gap support of the solar panel part is configured as an anchor bolt type for mounting and fixing by extending toward the concrete wall at the rear of the solar module.

In addition, the gap support of the solar panel part may be configured in a frame type that is fixed in contact along the outer rim to the rear of the solar module.

According to the balcony installation insulation structure of the building-integrated photovoltaic module according to the present invention, the exterior wall of the building balcony is finished with plaster and at the same time power can be obtained through solar power generation, so the insulation effect according to the thermal bridge is very excellent, By installing solar panels together with the exterior wall, the construction efficiency is improved, the space utilization efficiency of the building is improved, and the power consumption rate of the building itself can be reduced.

In addition, since the balcony installation insulation structure of the building-integrated photovoltaic module according to the present invention is configured to support while maintaining a gap between the photovoltaic module and the external insulation material, the energy generation efficiency can be improved while securing the driving stability of the photovoltaic module. there is an effect

1 is a cross-sectional view showing an embodiment according to the present invention.
2 is an enlarged cross-sectional view showing an embodiment according to the present invention.
3 is an enlarged cross-sectional view showing another embodiment of the gap support in one embodiment according to the present invention.

The present invention comprises: a concrete wall forming an outer wall surface of a building balcony and forming an opening penetrating into and out; a balcony window unit installed corresponding to the opening of the concrete wall and having a window frame and a balcony window; an external insulating material installed to correspond to the outer surface of the concrete wall and attached to the outer surface except for the upper and lower edges of the concrete wall; a heat-crossing barrier interposed between the concrete wall and the window frame and coupled to one end of the external insulator in butt contact with the upper and lower edges of the concrete wall; A solar panel unit for generating electric energy by receiving sunlight and receiving sunlight to finish the exterior in response to the external insulation material; It features a technical configuration of a balcony installation insulation structure of a building-integrated photovoltaic module including a gap support for fixing the photovoltaic module to be positioned at a distance from the external heat insulating material.

Next, a preferred embodiment of the balcony installation insulation structure of the building-integrated solar module according to the present invention will be described in detail with reference to the drawings.

First, an embodiment of the balcony installation insulation structure of the building-integrated solar module according to the present invention is as shown in [Fig. 1] to [Fig. 3], a concrete wall 10, a balcony window unit 20, and It consists of a heat insulating material 30 , a heat cross-blocking material 40 , and a solar panel unit 50 .

The concrete wall 10 is the most basic component constituting the outer wall of the building, and the opening 11 penetrating inside and out is formed at the position where the balcony window part 20 is to be installed.

In the present invention, the concrete wall is a configuration that forms the outer wall surface of the balcony side of the building, and forms a relatively narrow area compared to the concrete wall 10 applied to correspond to general windows, and the area forming the opening 11 is relatively large. is done

The balcony window unit 20 is installed to correspond to the opening 11 of the concrete wall 10 .

The balcony window unit 20 is made of aluminum and is installed on the window frame 21 to form an outer frame along the perimeter of the opening 11, and can be opened and closed on the window frame 21, but with sliding or hinged doors. It constitutes a balcony window 23 to be configured as possible.

The external insulating material 30 is installed to correspond to the outer surface of the concrete wall (10).

The external insulating material 30 is configured using fiber-based and foam-based materials, and is configured to prevent dew condensation while increasing the thermal insulation effect from the outside of the concrete wall 10 .

As shown in [Fig. 2] to [Fig. 3], the external insulating material 30 is installed to correspond to the outer surface of the concrete wall, but is attached to the outer surface except for the upper and lower edges of the concrete wall, and the heat cross-blocking material (40) and one end are in butt contact to form a structure that can be integrated.

The thermal bridge barrier material 40 functions to block the thermal bridge between the concrete wall 10 and the window frame 21 of the balcony window unit 20 .

The heat cross-blocking material 40 is installed to correspond to the opening 11 of the concrete wall 10 and is interposed between the concrete wall 10 and the window frame 21 .

The heat cross-blocking material 40 forms a structure that can be contacted on the window frame 21 while enclosing the outer edge of the opening 11 of the concrete wall 10 together with the external insulation material 30 .

In the above, the thermal barrier material 40 is interposed between the concrete wall 10 and the window frame 21 and at the same time extends in a perpendicular direction so as to be in contact with the upper and lower corners of the concrete wall 10. . That is, the heat-crossing material 40 is formed in a “L” or “B” cross-sectional shape.

For example, in the case of the thermal barrier material 40 applied to the upper side with respect to the external insulating material 30 as a reference, it is constructed by applying the "L"-shaped cross-sectional shape of the thermal barrier material 40, and the external insulating material 30 is the standard In the case of the thermal barrier material 40 applied to the lower side, it is configured by applying the thermal barrier material 40 having a “b” cross-sectional shape.

Since the thermal barrier material 40 has a thickness of 20 to 30 cm and is applied to a thinner thickness than a general thermal barrier material, it is important to improve the application efficiency of the thermal barrier material in a narrow space along the outer wall of the balcony with an excellent thermal insulation effect. It is possible.

The photovoltaic panel unit 50 performs a function of generating electric power according to photovoltaic power generation while finishing the exterior of the building.

The solar panel unit 50 is installed and configured to finish the exterior of the building in response to the external insulating material 30 .

The photovoltaic panel unit 50 is configured to generate electric energy by receiving sunlight, and constitutes the photovoltaic module 51 and the gap support unit 55 .

Although not shown in the drawings, the photovoltaic module 51 has a module frame that forms an outer rim and a support frame, and one surface is exposed on the module frame to constitute a photovoltaic panel configured to receive sunlight. .

The solar panel is provided with a plurality of cells to form a structure capable of receiving light, and since it is widely known that photoelectric conversion of light energy received through the cells is widely known, a detailed description is omitted, and the solar panel is limited to any do not put

The gap support 55 is configured to support and fix the solar module 51 on the concrete wall 10 .

The gap support 55 is fixed so that the photovoltaic module 51 is spaced apart from the external heat insulating material 30 to be positioned.

As shown in [Fig. 2], the gap support 55 is formed to extend toward the concrete wall 10 at the rear of the photovoltaic module 51 and is formed in an anchor bolt type for mounting and fixing. That is, one end of the gap support 55 is fixed to the concrete wall 10 , and the gap support 55 is fastened to the rear surface of the solar module 51 .

In the above, the gap support 55 is configured to have a plurality of spaced apart from each other, so that the solar module 51 can be stably supported.

In addition, as shown in [Fig. 3], the gap support 55 may be configured in a frame type that is fixed in contact along the outer rim to the rear of the solar module 51.

When the frame-type gap support 55 is constituted as described above, it is possible to further improve the aesthetics by forming an integral body with the external insulation material.

That is, according to the balcony installation insulation structure of the building-integrated photovoltaic module according to the present invention configured as described above, since the exterior wall of the building balcony is painted and finished and power can be obtained through photovoltaic power generation at the same time, the insulation according to the thermal bridge blocking It is very effective, and it is possible to improve the space utilization efficiency of the building while improving the construction efficiency by installing the solar panel together with the wall exterior, and to reduce the power consumption rate of the building itself.

In addition, since the present invention is configured to support while maintaining a gap between the photovoltaic module and the external heat insulating material, it is possible to improve the energy generation efficiency while ensuring the driving stability of the photovoltaic module.

In the above, a preferred embodiment of the balcony installation insulation structure of the building-integrated photovoltaic module according to the present invention has been described, but the present invention is not limited thereto. Modifications are possible, and this also falls within the scope of the present invention.

10: concrete wall 11: opening
20: balcony window 21: window frame
23: balcony window 30: external insulation material
40: thermal barrier material 50: solar panel unit
51: solar module
55: gap support

Claims (4)

a concrete wall forming an outer wall surface of the building balcony and forming an opening penetrating inside and outside;
a balcony window unit installed corresponding to the opening of the concrete wall and having a window frame and a balcony window;
an external insulating material installed to correspond to the outer surface of the concrete wall and attached to the outer surface except for the upper and lower edges of the concrete wall;
a heat cross-blocking member interposed between the concrete wall and the window frame and coupled to one end of the external insulating material in butt contact with the upper and lower edges of the concrete wall;
A solar panel unit for generating electric energy by receiving sunlight and installing the exterior to be finished in response to the external insulation;
The photovoltaic panel unit comprises a photovoltaic module and a gap support for fixing the photovoltaic module on the concrete wall and fixing the photovoltaic module to be spaced apart from the external insulation material. Balcony installation insulation structure of building-integrated photovoltaic module
The method according to claim 1,
The heat cross-blocking material is combined with one end of the external insulation material in abutment contact, wraps around the upper and lower corners of the concrete wall, and forms a structure extending in a right angle direction to be in contact with the concrete wall. Balcony installation insulation structure of building-integrated photovoltaic module with
The method according to claim 1,
The gap support of the solar panel part is a balcony installation insulation structure of a building-integrated solar module, characterized in that it is formed in an anchor bolt type for mounting and fixing by extending toward the concrete wall at the rear of the solar module.
The method according to claim 1,
The gap support of the solar panel part is a balcony installation insulation structure of a building-integrated photovoltaic module, characterized in that it is made of a frame type that is fixed in contact with the outer edge to the rear of the photovoltaic module.

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