KR102486560B1 - Multifunctional building integrated photovoltaic module - Google Patents

Abstract

The present invention relates to a multi-functional building-integrated solar module, in detail, to a multi-functional building-integrated solar module which minimizes interference caused by the output cable during manufacturing and inconvenience caused by the output cable during transportation as the output cable is not exposed in the junction box itself, simplifies the work process during installation, increases efficiency by applying double-sided cells to solar panels and adds aesthetics by applying color to the tempered glass installed in front of the solar panel by attaching tempered glass to the front and back of the double-sided solar panel, attaching a spacer to the back border of the tempered glass installed on the back, forming a space spaced at a certain distance from the top and then attaching the back glass to form a double layer, connecting the solar bus bar wire to the space, installing a junction box equipped with a connection connector, the jack of the output cable can be connected to the connection connector in a one-touch manner to minimize inconvenience.

Description

Multifunctional building-integrated solar module {MULTIFUNCTIONAL BUILDING INTEGRATED PHOTOVOLTAIC MODULE}

The present invention relates to a multifunctional building-integrated solar module, and in detail, first and second tempered glass are attached to the front and rear surfaces of a double-sided solar panel, and a spacer is attached to the rear edge of the second tempered glass, but is constant at the top. After forming a space by spacing it apart, the third tempered glass is attached to form a double layer, and a bus bar is connected to the space, and a junction box equipped with a connection connector is buried and installed to combine the jack of the output cable to the connection connector in a one-touch method. By doing so, the junction box itself is buried, and the output cable is completely separated from the junction box to minimize interference by the output cable during manufacturing and inconvenience caused by the output cable during transportation, and to simplify the work process during installation, It relates to a multifunctional building-integrated solar module that increases efficiency by applying double-sided cells to a panel and imparts aesthetics by applying color to tempered glass installed in front of a solar panel.

Photovoltaic power generation produces electric power by irradiating light energy to solar cells (modules) made of semiconductors and converting the light energy into direct current electricity. It has the advantages of low waste generation, no mechanical vibration and noise, long lifespan of at least 25 years, and easy maintenance.

In general, a photovoltaic power generation system includes a photovoltaic module that converts light energy into direct current electrical energy, an inverter that converts direct current power into alternating current power, and a connection that transfers the direct current power generated from the photovoltaic module to the inverter. It includes a box, and the AC power converted by the inverter is sent to the power system system by a separate AC switchboard and supplied to the premises or consumers.

Since the amount of electrical energy generated from a unit solar cell is very small, a plurality of solar cell groups are usually manufactured as modules, and an array is composed of a plurality of photovoltaic modules in series as a group and these groups are paralleled again. Allies will secure the necessary power.

The installation of a module, which is a key material for solar power generation, which is an eco-friendly renewable energy, requires a structure and space of a certain size, and generally requires a space of at least 5㎡ for a module to produce 1KW of power. In urban areas, it is not easy to secure space, so there are many cases where building integrated photovoltaic modules (Building Integrated Photovoltaic) that are directly installed on rooftops, windows, roofs, and outer walls of buildings are applied.

In order to connect the electricity generated from these building-integrated photovoltaic modules to the system, electrical connection between the minimum series group (string) of each solar cell and the junction box is required. The bus bar is responsible for this electrical connection. (bus bar).

As disclosed in Korean Patent Registration No. 10-1020272, Korean Patent Registration No. 10-0930103, etc., the junction box of a general building-integrated photovoltaic module is a module per solar cell module, as shown in FIGS. 1 and 2 It is installed on the top, and the bus bar extends over the glass to connect at the junction box and connects the cable to the junction box.

However, since these junction boxes are installed separately on top of the module, there is a problem in that construction is difficult due to interference with the frame when installed in the building.

In addition, the building-integrated photovoltaic module has a problem in that the front glass is made of transparent glass, so that the building uniformly has the same color, hindering the aesthetic appearance, and the power generation efficiency is relatively low due to the application of single-sided cells.

Republic of Korea Patent Registration No. 10-1020272 Republic of Korea Patent Registration No. 10-0930103

The present invention is to solve the above problems, attaching the first and second tempered glass to the front and rear surfaces of the double-sided solar panel, attaching a spacer to the rear edge of the second tempered glass, but spaced a certain distance from the top After forming the space, the third tempered glass is attached to form a double layer, the bus bar is connected to the space, and the junction box equipped with the connection connector is buried and installed, and the jack of the output cable is coupled to the connection connector in a one-touch manner. It is buried and completely separates the output cable from the junction box, minimizing interference by the output cable during manufacturing and inconvenience caused by the output cable during transportation, simplifying the work process during installation, and attaching both sides to the solar panel. An object of the present invention is to provide a multifunctional building-integrated solar module that increases efficiency by applying cells and imparts aesthetics by applying color to tempered glass installed in front of a solar panel.

In addition, another object of the present invention is to provide a multi-functional building-integrated solar module to increase power generation efficiency by applying double-sided cells to a solar panel by forming a double-glazed glass.

In addition, another object of the present invention is to provide a multi-functional building-integrated solar module in which colors are applied to the front tempered glass of a solar panel to impart an aesthetic sense.

The features of the present invention for achieving the above object are,

A building-integrated photovoltaic module installed adjacent to a plurality of building exterior walls, comprising: a double-sided cell; a bus bar electrically connecting the double-sided cells; a first tempered glass attached to the front surface of the double-sided cell; a second tempered glass formed to a smaller size than the first tempered glass and attached to the rear surface of the double-sided cell; a third tempered glass spaced apart from the rear surface of the second tempered glass by a spacer and attached by a sealing material; And a junction box to which the bus bar is fastened, a connection connector is provided, fixed to both ends of the upper or lower edge of the first tempered glass on the same line as the connection connector by adhesive, and embedded by the sealing material. to be

Here, the multifunctional building-integrated photovoltaic module further includes an output cable that is provided with a jack coupled to the connection connector of the junction box and is separated and coupled in a one-touch manner.

Here again, the first tempered glass is colored glass.

Here again, in the junction box, the end of the connection connector is positioned on the same line as the end of the first and third tempered glass to couple the output cable.

Here again, the connection connector of the junction box is formed in a buried form that is not exposed to the outside, and is coupled and disassembled with the jack of the output cable in a one-touch manner.

Here again, the connection connector is provided at one end or both ends.

Here again, the junction box is provided with a diode.

According to the multifunctional building-integrated solar module of the present invention configured as described above, the first and second tempered glass are attached to the front and rear surfaces of the double-sided solar panel, and a spacer is attached to the rear edge of the second tempered glass, but a constant After forming a space by spacing it apart, the third tempered glass is attached to form a double layer, a bus bar is connected to the space, and a junction box equipped with a connection connector is buried and installed to combine the jack of the output cable to the connection connector in a one-touch method. By doing so, the junction box itself is buried, and the output cable is completely separated from the junction box, thereby minimizing interference by the output cable during manufacturing and inconvenience caused by the output cable during transportation, and simplifying the work process during installation.

In addition, according to the present invention, it is possible to increase power generation efficiency by forming a double-glazed glass and applying a double-sided cell to a solar panel.

In addition, according to the present invention, aesthetics can be imparted by applying color to the front tempered glass of the solar panel.

1 and 2 are views showing the configuration of a junction box of a conventional building-integrated photovoltaic module.
3 is a front view showing the configuration of a multifunctional building-integrated photovoltaic module according to the present invention.
Figure 4 is a side view of Figure 3;
5 to 7 are views showing a planar cross-section and left and right side views showing the configuration of a junction box among multifunctional building-integrated photovoltaic modules according to the present invention.

Hereinafter, the configuration of the multifunctional building-integrated photovoltaic module according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, the definition should be made based on the contents throughout this specification.

Figure 3 is a front view showing the configuration of a multi-functional building-integrated solar module according to the present invention, Figure 4 is a side view of Figure 3, Figures 5 to 7 are the configuration of the junction box of the multi-functional building-integrated solar module according to the present invention It is a drawing showing a planar cross-section and left and right side views.

3 to 7, the multifunctional building-integrated solar module 100 according to the present invention includes a double-sided cell 110, a bus bar 120, a first tempered glass 130, and a second tempered glass. 140, third tempered glass 150, junction box 160, and output cable 170.

First, the double-sided cell 110 is capable of double-sided power generation. At this time, PVB sheets are bonded to the front and rear surfaces of the double-sided cell 110 .

In addition, the bus bar 120 electrically connects each double-sided cell 110, and a portion of the bus bar 120 is extended so as to be inserted into the clip 161 of the junction box 160 to be described below, and is not bonded.

In addition, the first tempered glass 130 is low iron tempered galss and is attached to the front surface of the double-sided cell 110 . At this time, colored glass is applied to the first tempered glass 130 to enhance the aesthetics of the building.

In addition, the second tempered glass 140 is formed in a smaller size than the first tempered glass 130 and attached to the rear surface of the double-sided cell 110 so that the junction box 160 to be described below is attached to the rear surface.

On the other hand, the third tempered glass 150 is heat strengthened glass that is broken into grains when broken, and is composed of the second tempered glass 140 to form a double layer for heat insulation and light reflection with the double-sided cells 110. It is spaced apart from the back surface by a spacer (A) and mutually attached to the first and second tempered glass (130, 140) by a sealing material (B). At this time, it is preferable that a shatterproof film F is attached to the rear surface of the third tempered glass 150, and a light reflecting film (not shown) may be attached to the front surface according to selection.

In addition, the junction box 160 is attached to both ends of the upper or lower edge of the rear surface of the first tempered glass 130 with an adhesive C so that the + terminal and the ?? terminal form a pair, and the bus bar 120 is fastened. A clip 161 is provided, a connection connector 163 electrically connected to the clip 161 is provided, and is embedded by a sealing material (B). At this time, the connection connector 163 is formed in a buried form that is not exposed to the outside, and after being coupled with the jack 171 of the output cable 170 to be described later, it is combined and disassembled in a one-touch method by rotation, and one or both ends , and a diode 165 may be provided therein.

In addition, the output cable 170 is provided with a jack 171 coupled to the connection connector 163 of the junction box 160, and then separated and coupled by a one-touch method by rotation after coupling.

On the other hand, this output cable 170 corresponds to the ?? It is connected to the junction box in a one-touch manner.

Therefore, the multifunctional building-integrated photovoltaic module 100 according to the present invention forms the connection connector 163 in the junction box 160, and uses the jack 171 of the separately manufactured output cable 170 to connect the connector ( 163), the output cable 170 can be separated and coupled in a one-touch method, and furthermore, the junction box 160 is embedded in silicon in a state where it is located between the tempered glass rather than the upper edge of the module, and the jack of the output cable 170 ( 171) is exposed at both side edges of the connection connector 163, so that transportation and storage are easy and construction is simple.

In addition, the multifunctional building-integrated photovoltaic module 100 according to the present invention secures insulation performance by installing the third tempered glass 150 on the rear surface of the first and second tempered glasses 130 and 140 and can be applied to buildings. Do.

In addition, since the multifunctional building-integrated photovoltaic module 100 according to the present invention generates power with light reflected from the third tempered glass 150 by applying the double-sided cell 110, power generation efficiency can be increased.

In addition, in the multifunctional building-integrated solar module 100 according to the present invention, the first tempered glass 130 installed on the front side is applied with colored glass to realize various colors, thereby giving aesthetics to the building.

The present invention can be variously modified and can take various forms, and in the detailed description of the invention, only specific embodiments thereof have been described. However, it should be understood that the present invention is not limited to the particular forms mentioned in the detailed description, but rather it is understood to include all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims. It should be.

110: double-sided cell 120: bus bar
130: first tempered glass 140: second tempered glass
150: third tempered glass 160: junction box
161: clip 163: connection connector
170: output cable 171: jack
A: Spacer B: Sealing material
C: adhesive F: shatterproof film

Claims (7)

In the building-integrated photovoltaic module installed so that a plurality of them are adjacent to the outer wall of the building,
a double-sided cell;
a bus bar electrically connecting the double-sided cells;
a first tempered glass attached to the front surface of the double-sided cell;
a second tempered glass formed to a smaller size than the first tempered glass and attached to the rear surface of the double-sided cell;
a third tempered glass spaced apart from the rear surface of the second tempered glass by a spacer and attached by a sealing material;
A clip into which an unattached portion extends from the bus bar is inserted and fastened, and a connection connector electrically connected to the clip is provided, and a + terminal and a - terminal are arranged on the same line as the connection connector to form a pair. a junction box fixed to both ends of the upper or lower edge of the rear surface of the first tempered glass with an adhesive and embedded with a sealing material so that only the connection connector is exposed at the edges of both sides; and
An output cable provided with a jack coupled to the connection connector of the junction box and separated and coupled in a one-touch manner;
The junction box,
The end of the connection connector is positioned on the same line as the end of the first and third tempered glass to couple the output cable,
The connection connector of the junction box,
A multifunctional building-integrated photovoltaic module, characterized in that it is formed in a buried form that is not exposed to the outside, is provided at one end or both ends, and is coupled and disassembled with a jack of the output cable in a one-touch manner. delete delete delete delete delete According to claim 1,
The junction box,
A multifunctional building-integrated solar module, characterized in that a diode is provided.

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