TWM560179U - Greenhouse light transmission and power generation structure - Google Patents

Abstract

The present invention relates to a greenhouse light-transmitting power generation structure, which comprises a greenhouse and a plurality of solar panels. The greenhouse has a chamber, and a diaphragm is arranged on the top, the diaphragm has a transparent transparent film and a diffusible diffusion film, and each a transparent film and each of the diffusion films are staggered in a lateral direction; the solar panel is disposed at a position below the transparent film in the chamber, and the solar panel has a light receiving surface, and the light receiving surface is disposed in parallel with the transparent film; Better luminous efficiency and crops can be exposed to sunlight and have a good growth environment.

Description

Greenhouse light transmission structure

The present invention relates to a greenhouse light-transmitting power generation structure, which mainly refers to a structure capable of providing a good illumination environment for plants and having a better power generation efficiency.

The greenhouse can moderately block the external wind and rain, and can improve the better growing environment of the plant. The transparent greenhouse has a transparent plate above the transparent plate, and the sunlight can penetrate the transparent plate to provide light to the plants below and can be photosynthesized for environmental protection and green energy. The goal is that the large-area greenhouse forms a good place for setting solar panels. As shown in FIG. 3, it is one of the conventional mounting structures, and has a greenhouse 1', a number of solar panels 2', and the greenhouse 1' has a chamber 11 'The upper part has a transparent plate 12', and the crop 3' is planted under the chamber 11'; and the solar panel 2' is disposed above the transparent plate 12', so that the sunlight can illuminate the solar panel 2' to generate electricity, and part of the sunlight can be Each solar panel 2' gap is projected to the transparent panel 12' and the lower crop 3' position.

However, although the foregoing arrangement structure can generate electricity, the dark area 4' is formed corresponding to the position below the solar panel 2', so that the crop 3' located in the dark area 4' does not have sufficient sunlight to affect the growth loss, and the solar panel 2' will directly bear The external wind and rain invaded, causing damage to the carrier under the solar panel 2', and the surface of the solar panel 2' is likely to be contaminated with dust and bird excrement, which has a lack of efficiency in receiving light.

The purpose of this creation is to provide a structure that provides a good light environment for plants and that has a better power generation efficiency.

The present invention comprises a greenhouse, a plurality of solar panels, the greenhouse having a chamber, and a membrane at the top, the membrane having at least one transparent film transparent to light and at least one diffusible film transparent, the transparent film and the diffusion film laterally Arranging; the solar panel is disposed at a position below the transparent film corresponding to the transparent chamber, and the solar panel has a light receiving surface, and the light receiving surface is disposed in parallel with the transparent film.

Further, the creation includes a plurality of transparent films and a plurality of diffusion films, each of the transparent films and each of the diffusion films being staggered in a lateral direction; and a plurality of solar panels, each of which is disposed below the corresponding transparent film, and each of the solar panels The light transmissive lateral spacing.

When the external sunlight illuminates the greenhouse, the sunlight can be directly projected onto the light receiving surface of the solar panel through the transparent film to cause the solar panel to generate electricity, and the sunlight can diffuse downward through the diffusion membrane, so that the crop under the greenhouse can be exposed to sunlight without generating In the dark area, part of the sunlight diffused by the diffusion film can be obliquely projected onto the light receiving surface of the adjacent solar panel, and the solar panel can simultaneously receive positive and lateral sunlight power generation, which can have better power generation efficiency.

Referring to FIG. 1 , the creation includes a greenhouse 1 and a plurality of solar panels 2 . The greenhouse has a chamber 11 and a diaphragm 12 is disposed on the top. The diaphragm 12 has a plurality of transparent transparent films 13 and a plurality of transparent materials. The film 14 is diffused, and each of the transparent films 13 and each of the diffusion films 14 are laterally staggered.

The solar panel 2 is disposed at a position below the corresponding transparent film 13 in the chamber 11, and the solar panel 2 has a light receiving surface 21, the light receiving surface 21 is disposed in parallel with the transparent film 13, and the solar panels 2 have a translucent lateral spacing therebetween. twenty two.

Referring to FIG. 2 , when the external sunlight is irradiated to the greenhouse 1 , the sunlight can be directly projected to the light receiving surface 21 of the solar panel 1 through the transparent film 13 to cause the solar panel 2 to generate electricity, and the sunlight can diffuse downward through the diffusion film 14 . The crop 3 under the greenhouse 1 can be exposed to sunlight without generating a dark area, and part of the sunlight diffused by the diffusion film 14 can be obliquely projected to the light receiving surface 21 of the adjacent solar panel 2, and the solar panel 2 can receive the positive direction at the same time. And lateral sunlight power generation, which can have better power generation efficiency.

The transparent film 13 and the diffusion film 14 of the present invention can be fully transparent, so that the power generation efficiency of the solar panel 2 can be significantly improved, and the crop 3 in the greenhouse 1 can be fully exposed to sunlight, thereby ensuring a good growth environment of the crop 3. Moreover, the solar panel 2 of the present invention is not directly subjected to external wind and rain and dust in the greenhouse 1, and can improve the service life of the solar panel 2. The solar panel of the present invention can have one or two opposite light-receiving surfaces. The foregoing examples are illustrative of the present invention and are not intended to be limiting of the present invention. Any equivalent changes in accordance with the spirit of the present invention should also fall within the scope of the present invention.

1‧‧ ‧ greenhouse
11‧‧ ‧ room
12‧‧‧ diaphragm
13‧‧‧Transparent film
14‧‧‧Diffuser film
2‧‧‧ solar panels
21‧‧‧Stained surface
22‧‧‧ spacing
3‧‧‧ crops
1'‧‧‧Greenhouse
11'‧‧‧ Rooms
12'‧‧‧Transparent board
2'‧‧‧Solar panels
3'‧‧‧ crops
4'‧‧‧Dark area

Figure 1 is a perspective view of the creation.

Figure 2 is a schematic diagram of the solar panel received by the present invention.

Figure 3 is a schematic diagram of a solar panel in a conventional greenhouse.

Claims (2)

The utility model relates to a greenhouse light-transmitting power generation structure, comprising: a greenhouse, a chamber, and a diaphragm disposed at the top, the diaphragm having at least one transparent film transparent to light and at least one light transmissive diffusion film, the transparent film and the diffusion film laterally Arranging; at least one solar panel is disposed at a position below the transparent film corresponding to the transparent chamber, and the solar panel has a light receiving surface, and the light receiving surface is disposed in parallel with the transparent film. The greenhouse light-transmitting power generation structure according to claim 1, comprising a plurality of transparent films and a plurality of diffusion films, each of the transparent films and each of the diffusion films being staggered in a lateral direction; and a plurality of solar panels, each of which is disposed on Corresponding to the position below the transparent film, and each solar panel has a translucent lateral spacing.