Greenhouse structure for vegetable planting

Abstract

The invention discloses a greenhouse structure for vegetable planting. The greenhouse structure comprises a frame, a film, catch basins, a water storage tank, a water pump, a watering mechanism, a humidity sensor, a fan, a beam, an air outlet, a temperature sensor, a fill light, a support rod, a screw, a first gear, a second gear, a motor, a sliding rod, a sliding sleeve, a sliding block, a hingedseat, a reflector, a photosensitive sensor and a controller. The upper end of the frame is covered with the film, and two ends of the upper portion of the frame are provided with the catch basins. The humidity sensor can detect humidity data of soil. When the detected humidity data is lower than the set value, the controller controls the water pump to transport a water source in the water storagetank to the watering mechanism, and an atomizing nozzle is adopted to spray the water out. Due to the fact that the atomizing nozzle is installed on a rotary nozzle seat, the water source can be diffused and sprayed around to increase the watering area. The greenhouse structure adopts the rotary atomizing watering method and saves water resources and also makes watering uniform compared with thetraditional watering method.

Description

technical field [0001] The invention relates to the technical field of agricultural planting, in particular to a greenhouse structure for vegetable planting. Background technique [0002] The existing greenhouse planting isolates the contact between the planting soil and the outside world. When it rains, the rainwater cannot fall on the soil covered by the greenhouse, resulting in insufficient water in the soil covered by the greenhouse. It needs to be watered with tap water. Direct spraying is wasteful, and the water consumption is large and the efficiency is low. Traditional vegetable greenhouses have inconvenient ventilation during use, and need to open windows, which require frequent manual switching, which is very inconvenient, and the ventilation is not uniform. In addition, , The lighting time in winter and summer is different, which affects the growth of plants. There is no supplementary light mechanism in the traditional greenhouse. SUMMARY OF THE INVENTION [00...

AI Technical Summary

Problems solved by technology

[0002] The existing greenhouse planting isolates the contact between the planting soil and the outside world. When it rains, the rainwater cannot fall on the soil covered by the greenhouse, resulting in insufficient moisture in the soil covered by the greenhouse. It needs to be irrigated with tap water. At the same time, the traditional irrigation method Direct spraying is wasteful, and the water consumption is large and the efficiency is low. Traditional vegetable greenhouses are inconvenient to ventilate during use. Windows need to be opened, and windows need to be opened and closed frequently manually, which is very inconvenient and the ventilation is not uniform. , The different light hours in winter and summer affect the growth of plants, and there is no supplementary light mechanism in traditional greenhouses

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