KR20210091375A - BIPV module for Media Facade - Google Patents

Abstract

The present invention relates to a BIPV module. The present invention suggests a BIPV module for a media façade where a GTG (Glass To Glass) type of media glass with a plurality of LED modules provided inside to implement a media function, a solar cell that generates electric power by sunlight, and a back glass supporting the solar cell are sequentially stacked. A liquid resin is filled between the media glass and the back glass and then solidified through a curing process to implement a BIPV module that forms a triple laminated glass structure of a G3G (Glass to Glass to Glass) type. Therefore, in a BIPV module for the media facade according to the present invention, an LED module is installed on a front side between a media glass and a back glass. After installing a solar cell on a back side, it is filled with cured liquid resin to form a GTG (Glass to Glass) type structure. So, a light-weight media façade that is charged by its own power source is implemented to greatly reduce manufacturing costs and product prices. It is suitable for mass production and has a more economical effect.

Description

BIPV module for Media Facade

The present invention relates to a media facade-integrated BIPV module. After installing a solar cell between a GTG (Glass To Glass) type media glass and a back glass in which a media function is implemented, the solar cell is cured By filling a liquid resin that becomes a G3G (Glass to Glass to Glass) type, a B.PV module is implemented that forms a structure in the form of a triple laminated glass, and the LED module is sequentially or simultaneously lighting controlled by a control device, It relates to a BIPV module for a media façade that displays a preset image or text to the outside of the media glass.

In general, a media facade refers to a technique for expressing images by illuminating LED lights on the exterior wall of a building, and in the prior art, various content images were projected on the exterior wall of the building.

Recently, a technology of attaching a display such as an LED to the wall of a building and using the wall of the building for display is used.

Meanwhile, as the proportion of solar modules (PV) installed on the roof or roof of buildings or used for BIPV is gradually increasing, research and development to reduce the weight of solar modules is in progress.

In particular, there are attempts to install a photovoltaic power generation system on the roof of a building in conjunction with each country's photovoltaic power generation assistance policy, but since the conventional photovoltaic module itself is large, the weight of the overall photovoltaic power generation system increases, and the building uses the photovoltaic power generation system. There are many cases where they are judged unsuitable for installation because they cannot withstand the load of the power generation system.

Such a heavy, conventional solar module weighs about 20Kg, of which the weight of the tempered glass is around 13kg, and the thickness of the tempered glass is 3.0 to 3.2mT. In other words, the tempered glass has a great influence on the weight of the solar module.

In relation to the prior art for reducing the weight of such a photovoltaic module, Korean Patent Publication No. 10-2011-0076123 discloses a method for manufacturing a lightweight photovoltaic module by thinning the thickness of the tempered glass used in the photovoltaic module. .

However, conventionally, the media facade and BIPV fusion system are separately installed in parallel to form a backlight that cannot be realized by itself by simple patterning or by installing LED lights on the back side, and the media and BIPV functions can be achieved by integrating the two bodies. A product that can be implemented at the same time has not been developed at all.

The present invention has been proposed to solve the above problems, and after installing a solar cell between a GTG (Glass To Glass) type media glass and a back glass in which a media function is implemented, By filling the cured liquid resin, a BPV module that forms a G3G (Glass to Glass to Glass) type triple laminated glass structure is implemented, and the LED module is controlled sequentially or simultaneously by a control device. , It is an object to provide a BIPV module for a media façade that displays a preset image or text to the outside of the media glass.

In addition, the present invention performs the media function and the power generation function as a BIPV module in one product at the same time by using the front LED as a transparent electrode (transmittance of 95% or more) to minimize the factors that may interfere with the power generation of the rear solar cell. It has another purpose to provide media and BIPV integrated products that can do this.

The BIPV module for the media façade according to the present invention is a GTG (Glass To Glass) type of media glass that has a plurality of LED modules on the inside to implement a media function, and generates electricity by sunlight. A solar cell and a back glass supporting the solar cell are sequentially stacked, and a liquid resin is filled between the media glass and the back glass and then solidified through a curing process to G3G ( It implements a B.P.V module that forms a structure in the form of a glass to glass) type triple laminated glass, and the LED module is controlled to turn on sequentially or simultaneously by a control device, and a preset image or character outside the media glass It is characterized by its technical feature to display.

The BIPV module for the media façade according to the present invention installs a solar cell between a G2G-type media glass and a back glass composed of an LED and a transparent electrode on the front side, and then is cured in a liquid phase. By filling with resin to form a GTG (Glass to Glass)-type structure, a lightweight media façade that is charged with its own power source is realized, which greatly reduces manufacturing costs and product prices, and is more economical as it is suitable for mass production. By performing the media function and the photovoltaic power generation function at the same time in the panel, it has the effect of optimizing the use density of the building and utilizing it as an alternative design that was a problem in the existing BIPV.

1 is an exploded perspective view of a BIPV module for a media facade according to the present invention;
2 is a schematic diagram schematically showing the front part of a BIPV module for a media façade according to the present invention;
3 is a cross-sectional view of a BIP V module for a media façade according to the present invention;
4 is a combined perspective view of a BIPV module for a media façade according to the present invention;
5 is a block diagram for controlling the operation of the BIPV module for the media facade according to the present invention;
6 is a schematic diagram schematically showing a case in which the BIPV module for the media façade according to the present invention is applied to the exterior wall of a building;
7 is a photograph of the use state of the present invention.

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figs. 1 and 5, the B.PV module for the media façade according to the present invention is a media glass 10 having a plurality of LED modules 11 on the inside, and is formed by sunlight. A solar cell 20 for generating electric power and a back glass 40 supporting the solar cell 20 are sequentially stacked, and the media glass 10 and the back glass 40 are sequentially stacked. In between, the liquid resin 30 is filled and then solidified through a curing process to prevent the solar cell 20 from flowing, and the LED module 11 is controlled to be turned on sequentially or simultaneously by the control device 60. , the media glass 10 is configured to display a preset image or text to the outside.

At this time, an external fitting is coupled to the rear surface of the back glass to prevent distortion.

The media glass 10 is manufactured by applying the technology of Patent Registration No. 1512661 (a transparent electric sign having a multi-layer structure that can be installed on a window frame and a manufacturing method thereof).

That is, the media glass 10 has a transparent electrode (not shown) made of conductive ink on one surface, and one or more transparent patterns (not shown) that are patterned so as to be insulated from the transparent electrode or other patterns by a process such as etching on the transparent electrode. not shown) and a plurality of LED modules 11 .

A conductive ink or a conductive material using ITO (Indium Tin Oxide) or CNT (Carbon Nano Tube) Glass) is applied to the entire surface of the media glass 10, and the LED module 11 is formed at the end of the transparent pattern. It is adhered by a conductive adhesive.

As shown in FIGS. 2 and 4 , the LED module 11 emits light to the front of the media glass 10 and at the same time does not block the sunlight flowing into the solar cell 20 at regular intervals. is installed

Since the media façade to which the present invention is applied forms an external billboard having a size of several tens of meters in width and length, it is sufficient that the distance between each LED module 11 is sufficiently spaced apart.

On the other hand, as shown in FIG. 3, the BIPV module for the media façade according to the present invention is a GTG (Glass To Glass) type of media glass 10 and a back glass (Back). After installing the solar cell 20 between the glass 40, the cured liquid resin 30 is filled to form a G3G (Glass to Glass to Glass) type triple laminated glass structure. The module is implemented, and an image or character is displayed through lighting control of the LED module 20 in the control device 60 with the power of the solar cell 20 .

The plurality of solar cells 20 and the LED module 11 and the control device 60 are electrically by a transparent electrode so as not to interfere with the solar light absorption by the solar cell 20 and the image expression by the LED module 11 . is connected to

In an embodiment of the present invention, the media glass 10 includes a plurality of LED modules 11 electrically connected by a transparent electrode and a transparent pattern between the first transparent plate 11a and the second transparent plate 11b. While the injected resin 11c is cured in the inserted state, the first transparent plate 11a and the second transparent plate 11b are adhered, and the protective glass 12 is again formed on the front surface of the first transparent plate 11a. to be adhesively bonded.

In particular, in the present invention, as shown in FIG. 5 , electricity is generated by the sunlight introduced from the front surface of the solar cell 20 and provided as a power source of the LED module 11 , and the rear surface of the solar cell 20 . The heat generated in the building is provided as a heat source for the BIPVT (Building Integrated Photovoltaic Thermal) system, a cogeneration system that produces heating energy and hot water for ventilation of the building, and is used as an energy source for heating and hot water in the building.

This BIPVT system is a technology that increases the power generation efficiency of PV by solving the overheating problem in the existing PV or BIPV (Building Integrated Photovoltaic System), and dramatically improves the thermoelectric conversion performance of the PV module by up to 200% compared to the existing unit area PV module. It is a system that can

In addition, when electricity is produced in the solar cell 20 or at night, the battery 70 as an auxiliary power source is optionally provided so that the media façade can be implemented.

That is, a battery 70 and a power sensing unit 71 are added between the solar cell 20 and the LED module 11, and in the power sensing unit 71, the power supplied from the solar cell 20 is below the reference voltage. In this case, it may be configured to supply power to the LED module 11 through the battery 70 .

At this time, the electrical signal of the power detection unit 71 is transmitted to the control device 60, implemented to call the attention of the manager, it may be implemented so as to detect the operation abnormality of the solar cell.

As shown in FIG. 6 , the BPV module for media facades according to the present invention is coupled to the wall of a building by an external fitting, and as shown in FIG. 7 , an image image is displayed on the exterior of the building. It can also be used in car theaters by expressing

The present invention as described above is not limited to the specific embodiments described above, and without departing from the gist of the present invention as claimed in the claims, anyone with ordinary skill in the field to which the invention pertains can implement various modifications. will be.

10: media glass 11: LED module
11a: first transparent layer 11b: second transparent layer
11c, 30: resin 20: solar cell
40: back glass 50: external fixing material
60: control device 70: battery
71: power sensing unit 80: cogeneration system

Claims (5)

A GTG (Glass To Glass) type media glass 10 in which a plurality of LED modules 11 are provided inside to implement a media function, and a solar cell that generates electric power by sunlight (20) and a back glass (Back Glass) 40 supporting the solar cell 20 are sequentially stacked,
A liquid resin 30 is filled between the media glass 10 and the back glass 40 and then solidified through a curing process to form a G3G (Glass to Glass to Glass) type triple laminated glass structure. Implements the IPV module,
The LED module (11) is controlled to be turned on sequentially or simultaneously by the control device (60) to display a preset image or character outside the media glass (10).
The method of claim 1,
A B.PV module for the media facade, characterized in that an external fitting is coupled to the rear surface of the back glass (40) to prevent distortion.
The method of claim 1,
The LED module 11 is inserted into the rear of the media glass 10 provided on the front side and is electrically connected to the solar cell 20 and the control device 60,
A BIPV module for a media façade, characterized in that it has a GTG (Glass to Glass) type structure by being closely fixed with the back glass 40 provided on the rear side by a resin 30 .
4. The method of claim 3,
The front of the solar cell 20 generates electricity by the incoming sunlight and provides it as a power source of the LED module 11,
The heat generated from the rear of the solar cell 20 is provided as a heat source for BIPVT (Building Integrated Photovoltaic Thermal), a cogeneration system that produces heating energy and hot water for ventilation of a building. module.
The method of claim 1,
A battery 70 and a power sensing unit 71 are added between the solar cell 20 and the LED module 11,
The power sensing unit 71 supplies power to the LED module 11 through the battery 70 when the power supplied from the solar cell 20 is less than or equal to the reference voltage.

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