JP3154801U - Package structure that can diversify the shape of solar energy modules - Google Patents

Abstract

To provide a package structure of a solar energy module with improved decorativeness by enabling diversification of shapes. A solar energy module is provided, and the shape of the solar energy module is not an ordinary square, but a package layer is further disposed outside the solar energy module. However, the solar energy plate 20 is configured to be formed in a plurality of shapes. [Selection] Figure 2

Description

The present invention relates to a package structure capable of diversifying the shape of a solar energy module.

FIG. 1 is a three-dimensional view of a conventional solar energy plate. The external shape of the conventional solar energy plate 1 is almost a quadrangle, and two main bonding wires 2 and a plurality of connecting bonding wires 3 are formed on the surface. The main bonding wires 2 are arranged in parallel on the surface of the solar energy plate 1 at intervals, and the connecting bonding wires 3 are arranged at intervals to form the main bonding wires. 2 is arranged vertically.

Although the conventional solar energy board 1 can generate electric power by converting solar energy, since the exterior molding is monotonous, and does not reduce the aesthetics of the building, the solar energy board 1 is not often seen on the roof. It is installed at the place.

    The present inventor proposes the present invention in which the above-mentioned drawbacks are studied carefully, and the above-mentioned disadvantages can be effectively eliminated by utilizing the theory, and the design is rational.

The main purpose of the present invention is that the above solar energy module can be produced in multiple shapes, so that the solar energy module can be diversified in shape while improving its decorative properties while exhibiting the power generation function of the conventional solar energy plate Provide a package structure.

The present invention is provided with a solar energy module, and the shape of the solar energy module is not an ordinary quadrangle, and the solar energy module has a variety of shapes that are packaged outside the solar energy module. The package structure can be changed.

Hereinafter, the features and technical contents of the present invention will be described in detail with reference to the drawings. However, the drawings and the like are for reference and explanation, and the present invention is not limited thereby.

Three-dimensional view of a conventional solar energy plate Three-dimensional view of the first better embodiment of the present invention 3D view of the second better embodiment of the present invention Three-dimensional view of the third better embodiment of the present invention Assembly sectional view of the fourth better embodiment of the present invention

FIG. 2 is a three-dimensional view of the first preferred embodiment of the present invention, which includes a solar energy module 10 whose shape is not an ordinary quadrangle, but a first better embodiment according to the present invention. The solar energy module 10 is an elliptical blade, the solar energy module 10 is formed by dividing the solar energy plate 20, and the solar energy plate 20 has a plurality of bonding wires 21 on one surface. The bonding wires 21 are further composed of a plurality of main bonding wires 211 and a plurality of connecting bonding wires 212, and the main bonding wires 211 are spaced apart from each other. These connected bonding wires arranged in parallel to the surface of the solar energy plate 20 212 are vertically arranged beside the main bonding wires 211 and the like, and a package layer 22 is further packaged outside the solar energy plate 20, and the package layer 22 is also packaged. Is made of a transparent epoxy resin (Epoxy) material, and the solar energy module 10 is divided and formed with the main bonding wire 211 as the center. The solar energy module 10 is formed on the solar energy plate 20. Corresponding transmission holes 23 are formed.

    FIG. 3 is a three-dimensional view of the second preferred embodiment of the present invention. The difference between the second better embodiment of the present invention and the above-described embodiment is that the solar energy module 10 is the solar energy plate. In the polygon blade formed by dividing 20, three main bonding wires 211 are installed in parallel with a space on one side surface of the solar energy plate 20, and beside the intermediate main bonding wire 211, Further, two irregular-shaped main bonding wires 211 are installed, and a polygonal blade is formed by the above, and the above-mentioned main bonding wires 211 are further symmetrically and obliquely parallel to the main bonding wires 211. In the preferred embodiment of the present invention, the above-described main bonding wire 211 and the above-described connecting bonder are provided. The gwire 212 is formed by screen printing, imitates the leaf vein distribution of the blade, and an emulation effect is obtained. Further, the package layer 22 is packaged outside the solar energy plate 20, and the solar The energy module 10 is cut out, and the corresponding transmission hole 23 is formed in the remaining portion. The solar energy plate 20 exhibits a decorative effect in the reverse direction by utilizing the shape of the transmission hole 23. Moreover, the solar energy plate 20 after the division can also be used as a tile or a three-dimensional decoration.

    FIG. 4 is a three-dimensional view of the third preferred embodiment of the present invention. The main difference between the third better embodiment of the present invention and the above-described embodiment is that the solar energy module 10 is polygonal. The main bonding wires 211 are installed on the one side surface of the solar energy module 10 from the center to the corners, near the main bonding wires 211, respectively. The connecting bonding wires 212 are arranged at intervals, and the connecting bonding wires 212 extend obliquely to the respective corners so that the main bonding wires 211 and the connecting bonding wires are connected. Both wires 212 are formed by screen printing.

    FIG. 5 is an assembled cross-sectional view of a fourth better embodiment of the present invention. In the fourth better embodiment, mainly two solar energy modules 10 are installed in opposite directions, The bonding wire 211 is positioned outside the solar energy module 10 described above, and is packaged as a whole using the package layer 22.

Therefore, the present invention is more progressive and more practical, and filed a device registration request according to the law.

The above is merely a better embodiment of the present invention, and the present invention is not limited thereby. Equivalent changes made based on the scope of claims and the description of the present invention are not limited thereto. All modifications are included within the scope of the invention registration claim of the present invention.

Conventional 1 Solar energy plate 2 Main bonding wire 3 Connection bonding wire Invention 10 Solar energy module 20 Solar energy plate 21 Bonding wire 211 Main bonding wire 212 Connection bonding wire 22 Package layer 23 Through hole

Claims (8)

At least one solar energy module is mainly contained, the shape of the solar energy module is not an ordinary square, and a package layer is further packaged outside the solar energy module.
A package structure capable of diversifying the shape of a solar energy module. 2. The solar energy module according to claim 1, wherein a plurality of bonding wires are further installed on a surface of one side, and the bonding wires are arranged in a predetermined shape. Package structure that can be diversified. Each of these bonding wires further comprises a plurality of main bonding wires and a plurality of connecting bonding wires, and each of these main bonding wires is distributed on the surface of the solar energy module, and 3. The package structure capable of diversifying the shape of the solar energy module according to claim 2, wherein the connection bonding wires are connected to each other at a distance from the main bonding wires. The package structure according to claim 2, wherein the solar energy module has a blade shape. The package structure according to claim 2, wherein the solar energy module has a polygonal shape. The solar energy module according to claim 2, wherein the solar energy module is a part of a solar energy plate, and a transmission hole corresponding to the solar energy module is formed on the solar energy plate. Package structure that can be diversified. The package structure according to claim 1, wherein the package layer is made of a transparent epoxy resin material. Two solar energy modules are provided, the solar energy modules are installed in reverse, and the main bonding wires are disposed outside the solar energy modules. The package structure capable of diversifying the shape of the solar energy module according to claim 1, wherein the package layer is further packaged outside the solar energy module.