JP3207808U - Solar panel module - Google Patents

Abstract

A solar panel module having good structural reliability and a relatively long lifetime is provided. A solar panel module includes a cover plate, a back plate, at least two solar panels, and at least one dark insulating layer. Among them, the solar panel 130 is placed between the cover plate 110 and the back plate 120 and arranged at intervals along one direction, and between the two adjacent solar panels 130. The dark insulating layer 140 is disposed in the separation gap G with a separation gap G and at a distance. [Selection] Figure 1

Description

  The present invention relates to an energy module, and more particularly to a solar panel module.

  Solar cells are widely applied to people's daily lives as green energy. Solar cells usually require the use of a large amount of solar panels, and the usual solar panel laying method is to arrange solar panels in battery modules, and between two adjacent solar panels, further transparent packaging material To fix the connection. However, since the two adjacent solar panels of the solar cell are dark objects, they easily absorb heat. Therefore, in the operation process of the solar cell, the heat absorption degree of the transparent package material disposed between the two adjacent solar panels is as follows. There is a clear difference in the heat absorption of solar panels. Furthermore, the obvious difference in the endothermic degree causes a phenomenon of local thermal stress non-uniformity in the solar cell, and further deteriorates or peels off the assembly and bonding relationship, thereby affecting the reliability. .

  In particular, current solar panels have a constant structural thickness, and accordingly the transparent packaging material between two adjacent solar panels also has a relatively large filling space, and thus a relatively large filling volume. Have Therefore, in the situation of thermal expansion and cold condensation, the phenomenon of non-uniform thermal stress between the transparent packaging material having a relatively large filling volume and the solar panel is further clarified, and the service life of the solar cell is greatly shortened.

  An object of the present invention is to provide a solar panel module having good structural reliability and a relatively long life.

  In order to achieve the above object, the solar panel module of the present invention includes a lid plate, a back plate, at least two solar panels, and at least one dark color insulating layer. Among them, the solar panel is sandwiched between the cover plate and the back plate, and is arranged at intervals along one direction, and of these, there is a separation gap between two adjacent solar panels. And at a distance from each other. The dark color insulating layer is disposed in the separation gap.

  According to an embodiment of the present invention, the dark color insulating layer is a continuous sheet-like insulator and is filled in the separation gap.

  According to an embodiment of the present invention, the solar panel is a thin film solar panel including silicon (Si), cadmium telluride (CdTe), copper indium gallium selenium (CIGS), or a combination thereof.

  In accordance with an embodiment of the present invention, at least a portion of the dark insulating layer and the edge of the solar panel overlap.

  In accordance with an embodiment of the present invention, each of the dark color insulation layers has an edge of the solar panel extending into the separation gap, and the extension distance of the separation gap is greater than one half of the distance.

  In accordance with an embodiment of the present invention, each dark color insulating layer is a transparent package material mixed with a dark color insulator.

  In accordance with an embodiment of the present invention, the dark insulating layer overlaps one of the upper or lower edges of the corresponding solar panel.

  According to an embodiment of the present invention, a transparent packaging material filling the separation gap is further included, and the transparent packaging material has a large volume on two separated sides of the dark insulating layer.

  Based on the embodiment of the present invention, the color of the dark insulating layer does not differ greatly in the degree of heat absorption of the solar panel.

  According to an embodiment of the present invention, the lid plate and the back plate are glass materials.

  Based on the above, the present invention places at least one dark insulating layer between two adjacent solar panels, and the color of the dark insulating layer is substantially the same as the color of the solar panel, for example. Thus, in the operation process, the solar cell has no obvious difference between the endothermic degree of the dark insulating layer and the endothermic degree of the solar panel between two adjacent solar panels, and the thermal stress is locally localized in the solar cell. Does not cause a non-uniform phenomenon. Therefore, the solar panel module of the present invention has good reliability. It also has a relatively long service life.

It is explanatory drawing of the solar panel module of the suitable Example of this invention. It is explanatory drawing of the solar panel module of another preferable Example of this invention. It is explanatory drawing of the solar panel module of another another Example of this invention. FIG. 6 is an explanatory view of a solar panel module according to still another preferred embodiment of the present invention. FIG. 6 is an explanatory view of a solar panel module according to still another preferred embodiment of the present invention.

  In order to allow those skilled in the art to further understand the technical contents of the present invention, a preferred embodiment will be described below.

  FIG. 1 is an explanatory view of a solar panel module according to a preferred embodiment of the present invention. Referring to FIG. 1, the solar panel module 100 of the present embodiment includes a cover plate 110, a back plate 120, at least two solar panels 130, and at least one dark insulating layer 140. In the present embodiment, the lid plate 110 and the back plate 120 are made of, for example, a glass material, and are transparent packaging materials such as ethylene vinyl acetate (EVA), polyolefin (polyolefin) between the solar panel 130 and the solar panel 130. , PO), polyvinyl butyral (PVB), or other thermal encapsulant, or UV curable encapsulant, or silicone, or a combination of the above . The number of solar panels 130 will be described by taking two as an example. These solar panels 130 are, for example, 130A and 130B. The solar panels 130A and 130B are sandwiched between the cover plate 110 and the back plate 120. And spaced apart along one direction, so that there is a separation gap between two adjacent solar panels 130A, 130B and the two adjacent solar panels 130A, 130B are Separate the distance D. The dark color insulating layer 140 is disposed in the separation gap G. The dark color insulation layer is a dark color insulator, for example, polyethylene (Polyethylene, PE), polyamide (Polyamide, PA), polystyrene terephthalate (PET), or a combination of the above powders, granules, flakes. Transparent packaging materials, for example, thermal encapsulant such as ethylene vinyl acetate (EVA), polyolefin (polyolefin, PO), polyvinyl butyral (PVB), etc. Or a UV curable encapsulant, or silicone, or a combination of the above, filled in the separation gap G. The dark color insulating layer may be a continuous sheet-like insulator wrapped in a transparent packaging material installed in the separation gap G, and extends from the right side of the solar panel 130A to the left side of the solar panel 130B. As a matter of presentation, in this embodiment, the number of solar panels 130A and 130B will be described by taking two as an example, so that the separation gap G between two adjacent solar panels 130 is only one. Explain that there is. Of course, the present invention is not limited to this.

  As described above, in the present embodiment, the solar panels 130A and 130B may be single polycrystalline silicon solar panels. The solar panels 130A and 130B are thin-film solar panels including, for example, silicon (Si), cadmium telluride (CdTe), copper indium gallium selenium (CIGS), or a combination thereof. Furthermore, the solar panels 130A and 130B, for example, are provided with a photoelectric conversion layer (not shown) to convert sunlight energy into electrical energy. Among them, the photoelectric conversion layer is a semiconductor material composed of, for example, copper (Cu), indium (In), gallium (Ga), and selenium (Se), or a group Ib element such as copper (Cu) or silver. A compound semiconductor material composed of (Ag), IIIb group element, aluminum (Al), gallium (Ga) or indium (In) and VIb element, for example, sulfur (S), selenium (Se) or tellurium (Te) Can be included.

  FIG. 2 is an explanatory view of a solar panel module according to another preferred embodiment of the present invention. Referring to FIG. 2, the solar panel module 200 of the present embodiment is similar to the solar panel module 100 shown in FIG. 1, but the difference between the two is as follows: In the solar panel module 200 of the present embodiment, The dark color insulating layer 140 disposed in the separation gap G and at least a part of at least one edge of the two adjacent solar panels 130A and 130B overlap. In this embodiment, the dark color insulation layer 140 partially overlaps two adjacent solar panels 130A and 130B, respectively. In particular, one end 140E1 of the dark color insulating layer 140, for example, partially overlaps the upper edge of the solar panel 130A, and the other end 140E2 of the dark color insulating layer 140, for example, partially overlaps the lower edge of the other solar panel 130B. In addition, the width W1 of the dark insulating layer 140 is, for example, between two adjacent solar panels 130 in order to overlap the dark insulating layer 140 with at least a part of at least one edge of the two adjacent solar panels 130A and 130B. Greater than distance D.

  FIG. 3 is an explanatory view of a solar panel module according to another preferred embodiment of the present invention. With reference to FIG. 3, the solar panel module 300 of this embodiment is similar to the solar panel module 200 shown in FIG. 2, and the difference between the two is as follows: In the solar panel module 300 of this embodiment, 2 In the separation gap G between two adjacent solar panels 130A and 130B, two dark color insulating layers 140A and 140B are installed. Among them, the dark color insulation layer 140B contacts the upper edge of the solar panel 130B, the other dark color insulation layer 140 contacts the lower edge of the other solar panel 130A, and the two dark color insulation layers 140A, 140B. Overlap each other. In particular, in the present embodiment, the width W2 of the dark color insulating layers 140A and 140B is, for example, greater than one half of the distance D between the two solar panels 130A and 130B. In other words, each dark color insulation layer 140A, 140B extends from one edge of the corresponding solar panel 130A, 130B to the separation gap G, and the extension distance in the separation gap G is between the two solar panels 130A, 130B. It is larger than half of the distance D. Thus, the two dark color insulating layers 140A and 140B overlap each other in the separation gap G.

  FIG. 4 is an explanatory view of a solar panel module according to still another preferred embodiment of the present invention. Referring to FIG. 4, the solar panel module 400 of this embodiment is similar to the solar panel module 300 shown in FIG. 3, and the difference between the two is as follows: The dark color insulating layers 140A and 140B overlap the corresponding solar panels 130A and 130B. Specifically, one end of the dark insulating layer 140A overlaps at least a part of the upper edge of one end of the solar panel 130A. Similarly, one end of the dark insulating layer 140B overlaps at least a part of the lower edge of one end of the solar panel 130B. Moreover, the one end which does not overlap with the solar panel in dark color insulation layer 140A, 140B overlaps mutually.

  FIG. 5 is an explanatory diagram of a solar panel module according to a preferred embodiment of the present invention. Referring to FIG. 5, the solar panel module 500 of this embodiment is similar to the solar panel module 400 shown in FIG. 4, and the differences between the two are as follows: The dark color insulating layers 140A and 140B are disposed on both sides of the solar panels 130A and 130B, respectively. Specifically, one end of the dark insulating layer 140A overlaps at least a part of the upper edge of one end of the solar panel 130A. The other end of the dark insulating layer 140A overlaps at least a part of the upper edge of one end of the other solar panel 130B. Similarly, one end of the dark color insulation layer 140B overlaps at least a part of the lower edge of one end of the solar panel 130A, and the other end of the dark color insulation layer 140B overlaps at least a part of the lower edge of one end of the other solar panel 130B. . Of these, the dark insulating layers 140A and 140B do not overlap each other. The arrangement of the dark color insulating layer shown in FIGS. 2 to 5 is such that the transparent packaging material filled between the separation gaps G has a large volume on the divided two sides of the dark color insulating layer, and thereby its thermal expansion. The effect of the above is to be substantially the same, and the reliability is further improved.

  In a preferred embodiment, the solar panel module can also include a transparent packaging material that fills the separation gap, the transparent packaging material having a major volume on the two separated sides of the dark insulating layer.

  As should be presented, in the present invention, the color of the dark insulating layer 140 is black or other suitable dark color. More specifically, the color of the dark insulating layer 140 of the present invention is substantially the same as the color of the solar panel 130. Accordingly, any one in which the color of the dark insulating layer 140 and the color of the solar panel 130 are substantially the same belongs to the spirit and category of the present invention, and the text does not perform any limitation in this respect.

  As described above, the present invention places at least one dark insulating layer between two adjacent solar panels, and the color of the dark insulating layer is substantially the same as the color of the solar panel, for example. It is. As described above, in the operation process, the solar cell does not have a large difference between the heat absorption degree of the dark insulating layer disposed between two adjacent solar panels and the heat absorption degree of the solar panel. The phenomenon that the structure is deteriorated due to non-uniform stress is not caused. Therefore, the solar panel module of the present invention does not cause a bad situation such as deterioration or peeling of the assembly and bonding relationship of the prior art. In other words, the present invention has a favorable structural connection relationship and reliability. Solidarity and relatively long service life.

  In addition, current solar panels have a certain structural thickness, and a dark insulating layer between two adjacent solar panels jointly has a relatively large filling space and a relatively large filling volume. In the present invention, a dark color insulation layer is disposed between two adjacent solar panels, and the color of the dark color insulation layer and the color of the solar panel are substantially the same. There is still no clear difference between the heat absorption of the insulating layer and the heat absorption of the solar panel, and there is no phenomenon of non-uniform thermal stress of the prior art, accompanied by deterioration or peeling of the assembly bonding relationship, etc. No bad situation will occur. In other words, the solar panel of the present invention has a certain structure thickness, and still has a good structure connection relationship and reliability even in the situation of thermal expansion and cold condensation where the environment is clear, and the service life of the solar cell Can be extended significantly.

  The present invention is a great leap because it has features, means and effects different from those of known techniques. It should be noted that the above-described embodiments are merely illustrative of the principles and effects of the present invention, and do not limit the scope of the present invention. Those skilled in the art can make modifications and changes to the embodiments without departing from the technical principle and spirit of the present invention. The scope of rights protection of the present invention is as described in the claims below.

100 Solar panel module 110 Cover plate 120 Back plate 130 Solar panel 130A Solar panel 130B Solar panel 140 Dark insulating layer 140A Dark insulating layer 140B Dark insulating layer 140E1 Edge of dark insulating layer 140E2 Edge of dark insulating layer 200 Solar panel module 300 Solar panel Module 400 Solar panel module 500 Solar panel module G Separation gap D Distance W1 Width W2 Width

Claims (7)

A lid plate;
A back plate,
At least two solar panels that are sandwiched between the lid plate and the back plate and arranged at intervals along one direction;
At least one dark insulating layer;
Including
Having a separation gap between two adjacent solar panels and spaced apart from each other,
The solar panel module, wherein the at least one dark color insulating layer is disposed in the separation gap.   The solar panel module according to claim 1, wherein the dark color insulating layer is a continuous sheet-like insulator and is filled in the separation gap.   2. The solar panel module according to claim 1, wherein at least a part of an edge of one of the dark color insulating layer and the at least two solar panels overlaps.   Each of the dark color insulation layers has a solar panel edge of one of the at least two solar panels extending into the separation gap, and an extension distance of the separation gap is greater than one half of the distance. The solar panel module according to 1.   The solar panel module according to claim 1, wherein the dark color insulating layer is overlapped with an upper edge or a lower edge of the corresponding solar panel.   The solar panel module according to claim 1, further comprising a transparent packaging material filling the separation gap, wherein the transparent packaging material has a large volume on two separated sides of the dark insulating layer.   2. The solar panel module according to claim 1, wherein the color of the dark insulating layer does not have a large difference in heat absorption from the solar panel.