ES2298024A1 - Support Structure for solar panel, has substrate support, and cover that functions to promote absorption of solar light - Google Patents

Abstract

The support structure has a substrate support for solar panel, a pair of frame of conductors of positive and negative electrode, and a cover. The cover concentrates the solar light and has an anti-reflecting function to promote the absorption of the solar light.

Description

Support structure for a solar panel.

Background of the invention Field of the Invention

The present invention relates to a light concentration support structure for a solar panel, in particular a support structure for a solar panel, which It can be mounted in a set of arbitrary forms.

Description of the related technique

A solar cell uses the photovoltaic effect to transform solar energy into electrical energy. See the Figure 1 for the structure of a conventional solar cell. The conventional solar cell 105 has a semiconductor layer 110 type N, a semiconductor layer 112 type P, a layer anti-reflective, and two electrodes 114 and 116. When the photons they enter solar cell 105, they are generated hollow electrons that spread along the junction between semiconductor layer 110 type N and the layer semiconductor 112 type P. Therefore, a current is generated from the upper electrode 114 to the lower electrode 116. Normally, solar energy absorbed by solar cell 105 can be raised by increasing the light receiving area or using a light concentration device, such as a lens structure However, it is difficult to manufacture an item with a large area of light concentration, and it is also difficult to get the assembly of solar cells from arbitrary sizes. In addition, the production of this is also difficult, to promote, and therefore its cost increases. By Therefore, the development of an easy support structure Manufacturing and easy assembly of light concentration for a panel solar is also one of the important issues in the fields in question.

Summary of the Invention

One of the objects of the present invention is provide a light concentration support structure for a solar panel, which can be manufactured using the process of LED manufacturing to simplify the support process of a solar cell light concentration.

Another object of the present invention is Provide a support structure for a solar panel. He LED conductor frame and epoxy encapsulation structure they are used to support a solar panel to simplify the process of supporting a solar panel and carrying out the adaptability of different cell mounting sizes solar.

To get the mentioned objects above, the embodiment of the present invention proposes a support structure for a high solar panel light concentration efficiency, which includes: a solar panel; a substrate that supports the solar panel; multiple structures cable connections electrically connected to the solar panel; Y a cover that encapsulates the solar panel, the substrate, and a portion of the cable connection structures. Besides, the cover can concentrate sunlight and has a function anti-reflective to increase the absorption of sunlight.

Brief description of the drawings

Figure 1 is a diagram that shows  Schematic structure of a conventional solar cell.

Figure 2A and Figure 2B are diagrams that schematically show the support structure of a solar panel according to a first embodiment of the present invention.

Figure 3A and Figure 3B are diagrams that schematically show the support structure of a solar panel according to a second embodiment of the present invention.

Figure 4A and Figure 4B are diagrams that schematically show the support structure of a solar panel according to a third embodiment of the present invention.

Detailed description of the invention

See Figure 2A, which is a diagram that schematically shows the support structure of a panel solar according to a third embodiment of the present invention. The dual inline solar panel support structure 10 includes: a solar panel 12, a substrate 14, multiple structures of cable connections 16, and a cover 18. In this form of embodiment, the substrate 14 is used to hold or support the solar panel 12 composed of a metal conductor of electricity, like copper and iron. The solar panel 12 can be a panel monocrystalline silicon solar, a polycrystalline solar panel of silicon, an amorphous silicon solar panel, or a solar panel of Gallium arsenide. Solar panel 12 is attached to the surface of substrate 14 by an appropriate procedure, as per example an adhesive layer (which does not appear in the drawing). Without However, in the present invention, the clamping process does not It is limited to the use of an adhesive layer. Solar panel 12 includes: at least one N type semiconductor layer, at least one layer P-type semiconductor, one layer with absorption capacity, and two electrodes These two electrodes are respectively connected electrically to different cable connection structures 16. In this embodiment the positive electrode and the electrode negative are placed separately on different sides of the panel solar 12, but in another embodiment of the present invention, the positive electrode and the negative electrode can be placed on the same side of solar panel 12, as shown in Figure 2B. It is understood that the structure of the panel solar 12 is not limited to the one mentioned above, but may include other structures, such as a glass substrate and a layer protective Internal conductors 13 and 19 are used respectively to electrically connect the electrodes to the external conductors 15 and 11. External conductors 11 and 15 are  configured to engage and electrically join a external structure (which does not appear in the drawing) and can also be used as power conductors. The drivers external 11 and 15 may be placed in the appropriate positions of the support structure 10 of the solar panel, such as the side or bottom of the solar panel 12. However, the present invention does not limit the position of the conductors external to those mentioned above.

The cover 18, like an epoxy body, covers and protects solar panel 12 and internal conductors 13 and 19, and You can concentrate sunlight. In another embodiment, the cover 18 can also function as an anti-reflective layer and allow more sunlight to enter the support structure dual in-line solar panel 10. Due to the characteristics of its material, the cover 18 can be manufactured in different ways geometric shapes to concentrate the sun's rays coming from different directions. Thus, the dual support structure online solar panel 10 can receive sunrays coming from all addresses, even if you are in a fixed position Accordingly, the present invention can solve the problem presented by the solar panel composed of assembled solar panels that you must modify your orientation to follow the path of the sun, and thus increase sunlight incident. In addition, the panel's dual online support structure solar 10 can be manufactured using a common LED support process without using an additional mold or machine. Besides, the dual inline solar panel support structure 10 can be mounted following the same procedure as the one used by LED. Thus, the dual in-line support structure of the solar panel 10 can be mounted on a solar energy system with the size and the desired geometry.

See Figure 3A and Figure 3B, which are diagrams that schematically show the structure of support of a solar panel according to a second embodiment of The present invention. As with the structure of dual support inline solar panel 10, support structure The solar panel 20 DMS (Surface Mount Device) includes: a solar panel 12, a substrate 14, a multitude of structures of cable connections 16, and a cover. The structures of 16 different cable connections are respectively connected to the positive electrode and the negative electrode, which are placed simultaneously on the same side of solar panel 12, or separately on different sides of the solar panel 12. Contrary to the dual inline solar panel support structure 10, the DMS 20 solar panel support structure has conductors external 11 and 15 extending from the lateral lazio of the solar panel 12. Accordingly, the support structure of the panel solar DMS 20 has a flattened geometry. In this way, the points of contact of the external conductors 11 and 15 can be fixed to a external element through an SMT procedure. In addition, the cover of the DMS 20 solar panel support structure can be composed of a transparent anti-reflective material for Increase incident sunlight.

See Figure 4A and Figure 4B, which are diagrams that schematically show the structure of support of a solar panel according to a third embodiment of The present invention. The support structure of the solar panel 30 TO (Transistor Outline-Cans - Scheme of Transistors-Conductions) includes: a solar panel 12, a collector TO 14, a body TO 18. In this form of embodiment, the solar panel 12 is attached to the collector TO 14 and electrically connected to internal conductor 13 and contact 17 in the collector TO 14. The internal conductor 13 and the contact 17 can penetrate collector TO 14 and extend outward to function as external conductors 15 and 11. The body TO 18 can protect solar panel 12 and concentrate sunlight from all directions, and the body TO 18 can be composed of an anti-reflective material so that more sunlight can penetrate in the body TO 18. The body shape TO 18 is not limited to being the shape of the column as it appears in Figure 4A and in Figure 4B it can also include all forms with the effect of light concentration In addition, what is installed in the TO collector 14 is not limited to one or multiple solar panels 12 but rather It can also include panels and elements with other functions.

The described embodiments previously they are intended to clarify thoughts Techniques and characteristics of the present invention, in order to allow people skilled in the art to understand, manufacture and Use the present invention. However, it is not intended to limit the scope of the present invention, and any modification equivalent and variation according to the spirit of the present invention will also be included within the scope of the claims of the present invention.

Claims (20)

1. A concentration support structure of light for a solar panel, comprising: a solar panel; a substrate that supports said solar panel; a plurality of connection structures of cables electrically connected to said solar panel; Y a cover that encapsulates said solar panel, said substrate, and said cable connection structures, which concentrates sunlight and comprises an anti-reflective structure to take advantage of the absorption of sunlight. 2. The concentration support structure of light for a solar panel according to claim 1, wherein said cover is formed by an injection molding process plastic. 3. The concentration support structure of light for a solar panel according to claim 1, wherein said Cover is formed by a mold filling process. 4. The concentration support structure of light for a solar panel according to claim 1, wherein said Cover is formed by filling a mold with epoxy. 5. The concentration support structure of light for a solar panel according to claim 1, which includes a support structure with conductors. 6. The concentration support structure of light for a solar panel according to claim 1, which includes a Dual online support structure. 7. The concentration support structure of light for a solar panel according to claim 1, which includes a Support structure of surface mount device. 8. The concentration support structure of light for a solar panel according to claim 1, comprising a support structure Transistor Outline-Cans (Scheme of Transistors-Conductions). 9. The concentration support structure of light for a solar panel according to claim 1, wherein said cable connection structure further comprises a plurality of power conductors that penetrate through and extend out of said cover. 10. The concentration support structure of light for a solar panel according to claim 1, wherein said Cover is a transparent lid. 11. The concentration support structure of light for a solar panel according to claim 1, wherein said Cover is a hollow tube. 12. The concentration support structure of light for a solar panel according to claim 1, wherein said solar panel is a monocrystalline silicon solar panel. 13. The concentration support structure of light for a solar panel according to claim 1, wherein said solar panel is a polycrystalline silicon solar panel. 14. The concentration support structure of light for a solar panel according to claim 1, wherein said solar panel is an amorphous silicon solar panel. 15. The concentration support structure of light for a solar panel according to claim 1, wherein said solar panel is a composite solar panel. 16. The concentration support structure of light for a solar panel according to claim 1, wherein said solar panel absorbs sunlight. 17. The concentration support structure of light for a solar panel according to claim 1, wherein the positive electrode and the negative electrode of said solar panel is placed simultaneously on the same side of said solar panel. 18. The concentration support structure of light for a solar panel according to claim 1, wherein the positive electrode and the negative electrode of said solar panel are respectively placed on different sides of said panel solar. 19. The concentration support structure of light for a solar panel according to claim 1, wherein the conductors of said support structure are mounted on a set. 20. The concentration support structure of light for a solar panel according to claim 1, wherein said cover is suitable for assembly type assembly in a set.