CN201860620U - Wintry warm type thin film solar energy photovoltaic vegetable greenhouse - Google Patents

Abstract

The utility model relates to a winter-warm type thin-film solar photovoltaic vegetable greenhouse, which comprises a greenhouse framework. Several rows of solar power generation modules are arranged on the greenhouse framework. The solar power generation modules include several thin-film solar photovoltaic panels and transparent glass. The thin-film solar photovoltaic Photovoltaic panels and transparent glass are arranged at intervals; since the solar photovoltaic panels are installed on the vegetable greenhouses without occupying land separately, land resources are saved; thin-film solar photovoltaic panels have very high light transmittance, and thin-film batteries ensure the power generation. At the same time, it also meets the needs of sunlight for plant photosynthesis; the ambient temperature of thin-film solar photovoltaic panels is -40 degrees to +85 degrees, and can withstand harsh weather conditions such as strong winds, heavy rains, and hail. The service life of thin-film solar photovoltaic panels is average For 25 years, the greenhouse framework is a steel structure greenhouse framework, which greatly prolongs the service life of the vegetable greenhouse and reduces the cost of using the vegetable greenhouse.

Description

A winter-warm type thin-film solar photovoltaic vegetable greenhouse

technical field

The utility model relates to a vegetable greenhouse, in particular to a winter warm type thin-film solar photovoltaic vegetable greenhouse.

Background technique

With the rapid development of human civilization, human demand for energy is also increasing. The contradiction between the continuous population growth and the increasing shortage of energy has always been a major problem facing modern society, and this problem is particularly prominent in China, which has a large population and serious shortage of per capita resources. In the next 20 years, the demand for energy will also maintain strong growth. Energy issues have become a major social issue related to the entire national economy and national security. Finding alternative energy and developing new energy has become the development direction of all countries.

my country's solar energy resources are relatively rich and widely distributed, and the development potential of solar photovoltaic power generation is huge. In addition, the current solar photovoltaic power generation technology has become increasingly mature, and it is one of the renewable energy technologies with the most ideal characteristics of sustainable development. Most of the current solar power generation devices are installed on open land, which takes up a lot of land resources.

The greenhouse is a facility that can transmit light and keep warm, and is used to cultivate plants. It provides growth conditions for the growth of plants in the winter season in the north that is not suitable for plant growth. There are many advantages of greenhouse vegetable production, but there are also disadvantages. Now the greenhouse framework is used, and the greenhouse framework is covered with plastic film. Most of the greenhouse frameworks are made of wood materials, which have low strength, poor resistance to natural disasters, and short service life. The light transmittance of the plastic film is poor, and the photosynthesis of the plants in the greenhouse is insufficient, which affects the chlorophyll, vitamin C, and sugar content of the vegetables grown, and the service life of the plastic film is also short, mostly about 1 year, which improves the greenhouse. use cost.

Utility model content

The problem to be solved by the utility model is to provide a winter-warm thin-film solar photovoltaic vegetable greenhouse that saves land resources, has a long service life, and has good light transmission.

In order to solve the above problems, the technical solution adopted by the utility model is: a winter-warm type thin-film solar photovoltaic vegetable greenhouse, which includes a greenhouse skeleton, and several rows of solar power generation modules are arranged on the greenhouse skeleton, and the solar power generation modules include several pieces of thin film The solar photovoltaic panel and the transparent glass are arranged at intervals between the thin film solar photovoltaic panel and the transparent glass.

A specific optimization scheme, the thin-film solar photovoltaic panels and transparent glass are arranged at intervals in the length direction of the greenhouse.

In a specific optimization scheme, two thin-film solar photovoltaic panels are arranged between adjacent transparent glasses in the length direction of the greenhouse.

A specific optimization solution, the several rows of solar power generation modules are arranged along the width direction of the greenhouse.

A specific optimization scheme, the number of the solar power generation modules is six rows.

A specific optimization scheme, a bracket for fixing the solar power generation module is arranged between the greenhouse framework and the solar power generation module.

A specific optimization scheme, the greenhouse framework is a steel structure greenhouse framework.

The utility model adopts the above technical scheme and has the following advantages: since the solar photovoltaic panel is installed on the vegetable greenhouse without occupying land separately, land resources are saved; the thin-film solar photovoltaic panel has a very high light transmittance, and the thin-film battery While ensuring power generation, it also meets the needs of sunlight for plant photosynthesis; the ambient temperature of thin-film solar photovoltaic panels is -40 degrees to +85 degrees, and can withstand harsh weather conditions such as strong winds, heavy rains, and hail. Thin-film solar photovoltaic panels The service life of the vegetable greenhouse is generally 25 years, and the greenhouse frame is a steel structure greenhouse frame, which greatly prolongs the service life of the vegetable greenhouse and reduces the cost of using the vegetable greenhouse.

Below in conjunction with accompanying drawing and embodiment the utility model is further described.

Description of drawings

Accompanying drawing 1 is the structural representation of a kind of winter warm type film solar photovoltaic vegetable greenhouse in the utility model embodiment;

Accompanying drawing 2 is the structural diagram of the solar power generation module in the embodiment of the utility model.

In the picture:

1-support frame; 2-bracket; 3-thin film solar photovoltaic panel; 4-sealant; 5-baffle; 6-insulation layer; 7-drainage ditch; 8-column; 11-water channel; 12-pillar; 13-earth wall; 14-transparent glass; 15-back support column.

Detailed ways

Embodiment: As shown in accompanying drawing 1 and accompanying drawing 2, a kind of winter-warm type thin-film solar photovoltaic vegetable greenhouse comprises a greenhouse skeleton, and six rows of solar power generation modules are arranged on the greenhouse skeleton, and the solar power generation module includes several thin-film solar photovoltaic panels 3 and transparent glass 14, the thin film solar photovoltaic panels 3 and transparent glass 14 are arranged at intervals.

Thin-film solar photovoltaic panels 3 and transparent glass 14 are arranged at intervals in the length direction of the greenhouse, and two thin-film solar photovoltaic panels 3 are arranged between adjacent transparent glasses 14 in the length direction of the greenhouse.

Six rows of solar power generation modules are arranged along the width of the greenhouse.

In the width direction of the greenhouse, the thin-film solar photovoltaic panels 3 in two adjacent rows of solar power generation modules are connected by the sealant 4, and the transparent glass 14 is connected by the sealant 4. In the length direction of the greenhouse, the solar photovoltaic panels 3 and the transparent Glass 14 is also connected by sealant 4 .

A support 2 for fixing the solar power generation module is arranged between the greenhouse framework and the solar power generation module. The support 2 is welded to the greenhouse framework, and the support 2 and the greenhouse framework can also be connected by other means, such as bolt connection, etc. The support 2 is arranged obliquely. Baffles 5 are respectively arranged on both sides, and the baffles 5 are located on the upper and lower sides of the bracket 2 .

The dotted line part in accompanying drawing 2 is support 2, and support 2 is made up of the support tube that is arranged horizontally and vertically, and the cross-sectional shape of support tube is rectangle, and the support tube that is set horizontally and vertically is welded together, and the support tube that is set horizontally and vertically Several rectangular frames are formed, and the rectangular frames support the solar photovoltaic panel 3 or the transparent glass 14 .

The greenhouse frame is also provided with an insulating layer 6 , and the insulating layer 6 is located on both sides of the support 2 .

The greenhouse framework is a steel structure greenhouse framework. The greenhouse framework includes an upper supporting frame 1. The front part of the supporting frame 1 is fixedly connected to the ground, and the rear part of the supporting frame 1 is fixedly connected with a pillar 12. The oblique support 9 and the pillar 12 are fixedly connected with a rear support column 15, and the middle position of the support frame 1 is provided with a column 8, and the column 8 can enhance the strength of the whole greenhouse skeleton.

The rear portion of the greenhouse is provided with an earth wall 13, and a water channel 11 is arranged near the position of the earth wall 13 in the greenhouse. Several water outlet holes 10 are arranged on the water channel 11. The water channels 11 are arranged along the length direction of the greenhouse. The length of the water channel 11 is the same as that of the greenhouse. Adapt to the length of the canopy, several water outlet holes 10 are evenly distributed along the length direction of the water channel, and the front portion of the greenhouse is provided with a drainage ditch 7.

Since the thin-film solar photovoltaic panel 3 can absorb ultraviolet rays with a wavelength range lower than 400nm, it can effectively prevent ultraviolet rays from damaging plants, help avoid damage to plants and reduce pests and diseases, and help improve the quality of agricultural products.

The agricultural greenhouse photovoltaic system composed of thin-film solar photovoltaic panels 3 can be matched with the LED system to ensure the growth of plants while generating electricity during the day. At night, the LED system can use the electricity generated during the day to provide lighting for plants, prolong the sunshine time, and shorten the production cycle. , Due to the high refractive index of the thin film battery material itself, the chance of plants being burned is reduced, the shadow of the greenhouse can be reduced, and the growth of plants is accelerated.

Thin-film solar photovoltaic panel 3 has a low average transmittance in the infrared spectrum of 780-3000nm, which can prevent excessive heat from entering the greenhouse, and can suppress the excessive rise of low temperature in the greenhouse in summer and at noon. The loss of heat energy can effectively play the role of heat preservation in winter and at night.

Claims (9)

1. winter warm type thin film solar photovoltaic green house of vegetables, comprise big-canopy framework, described big-canopy framework is provided with plurality of rows solar electrical energy generation module, it is characterized in that: the solar electrical energy generation module comprises some thin film solar photovoltaic panel (3) and clear glass (14), and described thin film solar photovoltaic panel (3) and clear glass (14) are provided with at interval.

2. a kind of winter warm type thin film solar photovoltaic green house of vegetables as claimed in claim 1 is characterized in that: described thin film solar photovoltaic panel (3) and clear glass (14) are provided with on the length direction of booth at interval.

3. a kind of winter warm type thin film solar photovoltaic green house of vegetables as claimed in claim 2 is characterized in that: be provided with two thin film solar photovoltaic panel (3) between clear glass adjacent on the length direction of booth (14).

4. as one of them described a kind of winter warm type thin film solar photovoltaic green house of vegetables of claim 1-3, it is characterized in that: described plurality of rows solar electrical energy generation module is arranged along the booth width.

5. a kind of winter warm type thin film solar photovoltaic green house of vegetables as claimed in claim 4, it is characterized in that: the quantity of described solar electrical energy generation module is six rows.

6. a kind of winter warm type thin film solar photovoltaic green house of vegetables as claimed in claim 1 is characterized in that: the support (2) that is provided with the fixed solar electricity generation module between described big-canopy framework and the solar electrical energy generation module.

7. a kind of winter warm type thin film solar photovoltaic green house of vegetables as claimed in claim 6, it is characterized in that: described support (2) is fixedlyed connected with big-canopy framework, and described support (2) is obliquely installed.

8. a kind of winter warm type thin film solar photovoltaic green house of vegetables as claimed in claim 7, it is characterized in that: the both sides of described support (2) are respectively arranged with baffle plate (5).

9. a kind of winter warm type thin film solar photovoltaic green house of vegetables as claimed in claim 1, it is characterized in that: described big-canopy framework is the steel construction big-canopy framework.

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