CN201976519U - Full intelligent low carbon greenhouse photovoltaic photothermal integrated generating system - Google Patents

Abstract

The utility model relates to a low-carbon all-intelligent greenhouse photovoltaic photothermal integrated power generation system, comprising a greenhouse, photoelectric and thermoelectric transparent thin-film solar cells installed on the top and side walls of the greenhouse, an inverter, and an environmental control system installed inside the greenhouse And LED lighting and supplementary light system, this patent uses LED lighting and supplementary light system to adjust the light intensity in the system; add a temperature control system to flexibly adjust the temperature in the system suitable for the growth of animals, plants and microorganisms; use microbial fermentation at low temperature The generated heat compensates the temperature, which saves a lot of energy and is low-carbon and environmentally friendly.

Description

Low-carbon fully intelligent greenhouse photovoltaic photothermal integrated power generation system

technical field

The utility model relates to a solar power generation system, in particular to a low-carbon full-smart greenhouse photovoltaic photothermal integrated power generation system.

Background technique

With the development of modern agriculture, the demand and application of new energy are becoming more and more extensive. Therefore, more and more solar energy products are applied to agricultural production.

At present, the solar energy systems related to agriculture on the market are mainly solar greenhouses or greenhouses, but the main applications are ordinary solar cells, which have low power generation efficiency, short service life, and low utilization efficiency of sunlight, which is not conducive to the progress and development of modern agriculture. .

Contents of the invention

In order to overcome the deficiencies of the above-mentioned technical solutions, the purpose of the utility model is to provide a low-carbon fully intelligent greenhouse photovoltaic photothermal integrated power generation system.

The utility model is realized through the following technical solutions:

A low-carbon full-smart greenhouse photovoltaic-thermal integrated power generation system, including a greenhouse, photovoltaic and thermoelectric transparent thin-film solar cells installed on the top and side walls of the greenhouse, an inverter, an environmental control system installed inside the greenhouse, and LED lighting and Fill light system.

In a nutshell, this patent includes the following parts:

1. Greenhouse, this system is built individually according to the number of crops to be farmed, and connects the independent individuals together according to the land area;

2. Photoelectric and thermoelectric transparent thin-film solar cells. In order to make full use of sunlight, solar cells can be installed on the top and side walls of the greenhouse system according to needs, and can be flexibly added or deleted according to power consumption;

3. Inverter, which is connected to the solar cell and the electrical device respectively, and converts direct current into alternating current for use by the electrical device in the system;

4. Environmental control system, which is powered by solar cells and can adjust the temperature and humidity inside the greenhouse system;

5. LED lighting and supplementary light system can adjust the light intensity in the system to make it more suitable for crop growth.

This patent uses LED lighting and supplementary light system to adjust the light intensity in the system; a temperature control system is added to flexibly adjust the temperature in the system suitable for the growth of animals, plants and microorganisms; when the temperature is low, the heat generated by microbial fermentation is used to compensate the temperature. A lot of energy is saved, low-carbon and environmentally friendly.

Description of drawings

Below according to accompanying drawing and embodiment this patent is described further:

Figure 1 is a schematic diagram of the overall structure of this patent

In the figure: 1. Greenhouse; 2. Photoelectric and thermoelectric transparent thin-film solar cells; 3. Inverter; 4. Environmental control system; 5. LED lighting and supplementary light system; 6. Microbial growth area

Detailed ways

As shown in Figure 1, a low-carbon fully intelligent greenhouse photovoltaic photothermal integrated power generation system includes a greenhouse 1, a photovoltaic and thermoelectric transparent thin-film solar cell 2 installed on the top and side walls of the greenhouse, an inverter 3, and installed in the greenhouse Internal environmental control system 4 and LED lighting and supplementary light system 5 .

In a nutshell, this patent includes the following parts:

1. Greenhouse, this system is built individually according to the number of crops to be farmed, and connects the independent individuals together according to the land area;

2. Photoelectric and thermoelectric transparent thin-film solar cells. In order to make full use of sunlight, solar cells can be installed on the top and side walls of the greenhouse system according to needs, and can be flexibly added or deleted according to power consumption;

3. Inverter, which is connected to the solar cell and the electrical device respectively, and converts direct current into alternating current for use by the electrical device in the system;

4. Environmental control system, which is powered by solar cells and can adjust the temperature and humidity inside the greenhouse system;

5. LED lighting and supplementary light system can adjust the light intensity in the system to make it more suitable for crop growth.

This patent uses LED lighting and supplementary light system to adjust the light intensity in the system; a temperature control system is added to flexibly adjust the temperature in the system suitable for the growth of animals, plants and microorganisms; when the temperature is low, the heat generated by microbial fermentation is used to compensate the temperature. A lot of energy is saved, low-carbon and environmentally friendly.

Those skilled in the art should be aware that the above-described embodiments are only used to illustrate the purpose of the utility model, rather than as a limitation to the utility model, as long as within the essential scope of the utility model, the above-mentioned All changes and modifications made in the embodiments will fall within the scope of the claims of the present utility model.

Claims (1)

1. complete intelligent booth photovoltaic and photothermal integral electricity generation system of low-carbon (LC), it is characterized in that, comprise the greenhouse, be installed on photoelectricity and thermoelectric transparent membrane solar cell, inverter, the environmental control system that is installed on inside, greenhouse and LED irradiation and the light filling system of top, greenhouse and sidewall.

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