RU91802U1 - IRRIGATION DEVICE - Google Patents

Abstract

An irrigation device containing containers for a concentrated solution of fertilizers, which are connected by means of intermediate pipelines, a pump and an adjustable valve with a mixing chamber connected to the main pipeline and connected through a transport pipeline with irrigation pipelines and droppers supplied to the plants, as well as a regulating concentrometer, which equipped with a sensor and connected to an adjustable valve, and an integrator of solar radiation, which is connected to a sensor of the arrival of solar radiation and an irrigation water flow regulator installed on the transporting pipeline, characterized in that it includes an analytical unit, which is connected to an adjustable valve and contains devices for determining the composition of the nutrient solution, root habitat and vegetative mass of plants.

Description

The utility model relates to agriculture, namely to hydroponic crop production.

The OBV-6 irrigation device is known (R.A. Hakobyan. Mechanization and automation of production processes in sheltered soil. M .: Kolos, 1969), which contains a nutrient solution preparation unit connected to a drum dispenser, which is connected by means of mud pipelines to pallets -boats placed in pool pallets.

However, this device is not effective enough due to low reliability and high cost.

The closest in technical essence to the claimed technical solution is an irrigation device (Aliev E.A., Smirnov N.A. Technology for cultivation of vegetable crops and mushrooms in sheltered soil. M .: Agropromizdat, 1987), containing containers for concentrated fertilizer solution which are connected by means of intermediate pipelines, a pump and an adjustable valve with a mixing chamber connected to the main pipeline and connected by means of a transporting pipeline to irrigation pipelines and drip s, let down to the plants, as well as regulating kontsentrometr which is provided with a sensor and is connected with an adjustable valve, and solar radiation integrator, which is connected with the arrival of the solar radiation sensor and irrigation water flow regulator mounted on the conveying pipeline.

However, this device is not effective enough due to the low productivity of plants, because it does not allow you to adjust the conditions of mineral nutrition depending on the activity of metabolic processes.

The technical result of using the utility model is to increase efficiency by increasing plant productivity by correcting the mineral nutrition conditions depending on the activity of metabolic processes.

This is achieved by the fact that the irrigation device includes an analytical unit, which is connected to an adjustable valve and contains devices for determining the composition of the nutrient solution, root habitat and the vegetative mass of plants,

As a result of a search conducted in scientific, technical and patent literature, an identical technical solution was not found, which proves the technical solution meets the criterion of "novelty."

The proposed device contains a container 1 (Fig.) For a concentrated fertilizer solution, which are connected by means of intermediate pipelines 2, a pump 3 and an adjustable valve 4 to a mixing chamber 5. The mixing chamber 5 is connected to the main pipe 6 and connected via a transport pipe 7 to the irrigation pipe 8 and droppers 9, brought to the plants. There is a regulating concentrometer 10, which is equipped with a sensor 11 and connected to an adjustable valve 4, as well as an integrator of solar radiation 12, which is connected with a sensor 13 for the arrival of solar radiation and a flow regulator 14 for irrigation water installed on the transport pipeline 7. To correct the conditions of mineral nutrition in depending on the activity of metabolic processes, an analytical unit 15 is provided, which is connected to an adjustable valve and 4 contains devices for determining the composition of the nutrient solution, root environment and vegetative mass of plants (for example, X-ray fluorescence spectrometer, conductometer and ionomer).

The device operates as follows. The concentrated fertilizer solution contained in the tanks 1 enters the mixing chamber 5 through the intermediate pipelines 2 with the help of a pump 3 and an adjustable valve 4. In the mixing chamber 5, the concentrated fertilizer solution is mixed with the water entering through the main pipe 6, as a result, the irrigation solution specified concentration. The irrigation solution is transported through the conveying pipe 7 to the irrigation pipes 8 and droppers 9, connected to the plants, which are placed in seedling cubes. The concentration of the irrigation solution is regulated using the sensor 11, which sends a signal to the regulating concentrometer 10, which controls the adjustable valve 4. The flow rate of the irrigation solution supplied through the conveying pipe 7 is regulated by the flow regulator 14, to which the signal from the solar radiation integrator 12, connected with sensor 13 of the arrival of solar radiation. Using the analytical unit 15, an analysis of the composition of the nutrient solution, root habitat and the vegetative mass of plants is carried out. Depending on the removal of elements from the nutrient solution and root habitat into the vegetative mass of plants, the conditions of mineral nutrition are corrected by applying a signal to an adjustable valve 4 and changing the concentration of fertilizers in the solution, which is supplied to the plants.

Using the proposed device can increase the productivity of plants.

Claims (1)

An irrigation device containing containers for concentrated fertilizer solution, which are connected via intermediate pipelines, a pump and an adjustable valve to a mixing chamber connected to the main pipeline and connected by a transport pipeline to irrigation pipelines and droppers connected to the plants, as well as a regulating concentrometer, which equipped with a sensor and connected to an adjustable valve, and an integrator of solar radiation, which is connected to the sensor of the arrival of solar radiation and an irrigation water flow regulator installed on the transport pipeline, characterized in that it includes an analytical unit that is connected to an adjustable valve and contains devices for determining the composition of the nutrient solution, root habitat and the vegetative mass of plants.