UA150667U - PLANT irrigation SYSTEM - Google Patents

Abstract

This irrigation system for plants grown in mini-greenhouses includes a water tank, a centrifugal pump, a system of irrigation pipes and a device for the treatment of water intended for irrigation, as well as a battery power system. An ozonator is used as a device for water treatment, and the irrigation pipe system contains compartments connected to it by means of tees, each of which is equipped with a series of nozzles for root irrigation. The compartments have corrugated sections, and the nozzles are made in the form of perforated cones with protective tapes of perforation holes.

Description

The claimed useful model belongs to agricultural machinery and can be used mainly in individual cultivation facilities (greenhouses) for watering and simultaneous stimulation of plant growth under the influence of specially treated water, for example ozonated.

A known irrigation system containing a water intake unit, a distribution network, elastic pipes fixed to the supporting elements, equipped with water outlets made in the form of tees, one of the ends of which is made in the form of nipples installed in the holes of the irrigation pipeline, and the other two ends of the tees are equipped with micro nozzles (AS USSR Mo 1395214, IPC

ATO 25/02, 1982) The disadvantage of such structures of the irrigation system is their insufficient operational capability due to the fact that the spraying of water is carried out at a very short distance and, when the water pressure in the pipeline is reduced below the calculated part of the areas with plants, will not be watered at all. In addition, plants are watered above the surface of the soil, which does not ensure reliable nutrition of the root part of plants, which does not contribute to their vegetation.

A portable greenhouse is also known, which contains a metal frame on wheels with cuvettes for soil and plants, a panel installed above it with fluorescent lamps and transformer channels, and the upper part of the frame is covered with a polyethylene film that is rolled up on a drum. Cuvettes with soil for plants are placed inside the frame, and perforation holes are made in the bottom of the greenhouse and a high-resistance heating spiral is located. In addition, a water tank is placed on the back of the frame, and perforated pipes of the irrigation system are mounted at the ends of the channels | AS USSR Mo 1671194, IPC AOT1O 9/00, AOTO 9/24 NOBV 41/18, 1991). The disadvantage of such a greenhouse is the impossibility of adjusting the climate parameters inside the greenhouse over the entire sown area, especially those parameters related to watering conditions.

The closest analogue to the watering system for plants grown in mini-greenhouses is a plant watering system that contains a water tank, a centrifugal pump, a pipe system and a solar power system with a battery and inverter included, as well as a pipeline equipped with a device for electromagnetic water treatment (Patent of Ukraine for utility model Mo 134291. IPK АО1О 25/00, ЕО2В 13/00, 2019|.

A significant disadvantage of such a system of watering plants is that the source of heat supply is a solar battery, which works depending on the time of day, that is, the presence of solar

Irradiation significantly reduces the reliability and quality of irrigation. Plant growth conditions are best when plants are watered with warm water. The availability of electricity for the plant watering system in the nearest analogue is regulated at the expense of a whole system of electric accumulators, which makes the watering process more expensive. In addition, the water in the container remains cold (without heating), which also does not contribute to the improvement of plant growth.

The problem to be solved by the proposed useful model is to improve the reliability and quality of plant watering by changing the design of the system and the composition of the water for irrigation.

The task is solved by the fact that in the system for watering plants grown in mini-greenhouses, which contains a container with water, a centrifugal pump, a system of irrigation pipes and a device for treating water intended for irrigation, as well as a power supply system with a battery, including, according to with a useful model, an ozonator is used as a water treatment device, and the irrigation pipe system contains compartments connected to it by means of tees, each of which is equipped with a series of nozzles, for root irrigation.

According to the claimed utility model, the compartments have corrugated sections and the nozzles are made in the form of perforated cones with protective bands of the perforation holes.

The attached drawings schematically show a system for watering plants grown in mini-greenhouses. Yes, in fig. 1 shows its frontal view, in fig. 2 - its top view, and in fig. C - view of the nozzle in a longitudinal section.

The system for watering plants includes: body 1 mini-greenhouse, irrigation pipes 2, beds C for plants, compartments 4 irrigation pipes, tees 5, cone-shaped perforated nozzles 6, corrugated inserts 7 compartments 4, ozonator 8, fasteners 9, pipeline 10 for water supply to the tank 11, electric battery 12, shaped shelf 13 for installing equipment intended for the irrigation system, nozzle holes 6, equipped with curved ribbons 14.

The system for watering plants works like this.

On the shaped shelf 13, an ozonator 8, a container 11 with water and an electric battery 12 are installed, which are combined in a technological sequence. The container 11 with water is installed on the upper part of the shaped shelf 13 so that it is located in the attic part of the housing 1 of the mini-greenhouse, because in this area of the mini-greenhouse, a "heat cushion" is usually formed, which heats the water in the container 11. container 11 is coated black with any means (mainly painting), which contributes to the preservation of heat inside container 11. At the same time, taking into account the fact that the body of a mini-greenhouse in modern conditions is made of strong frames covered with a polyethylene film that transmits well the sun's rays, the latter also heat the internal volume of the mini-greenhouse, and, accordingly, the water in the capacity 11.

It is common knowledge that the source of heat in such greenhouses is the heat generated during the decomposition of soil components, in particular manure, which is applied to feed plants. Irrigation water is supplied to tank 11 through pipeline 10, with its pumping by an external pump (the pump is located outside the greenhouse body, so it is not shown in the drawings).

Before starting watering, turn on the ozonator 8 to saturate the water with ozone in the tank 11.

The container 11 is filled with water by opening the tap installed at the entrance to the container 11, and irrigation water is sent from the container 11 to the system of pipelines 2 located next to the beds 3. Through the tees 5, water enters the compartments 4, and from them through the perforations in the nozzles 6 to plant roots.

The irrigation process is carried out carefully due to the fact that the compartments 4 of the irrigation pipes are equipped with corrugated sections 7, which allow you to adjust the distance between the nozzles 6, which are immersed in the soil right next to the roots of the plants.

Due to the fact that the compartments 4 are connected to the irrigation pipeline 2 by tees 5, the initial position of the compartments 4 is vertical (almost parallel to the walls of the body 1 of the mini-greenhouse), and to carry out the irrigation process, the compartments 4 are tilted to the level of the surface of the bed C for immersing the nozzles 6 into the ground

To prevent lumps of soil from entering the holes of the perforated bodies of the nozzles 6, protective curved tapes 14 are mounted on the surface of the nozzles, which prevent soil from entering the holes of the perforations of the nozzles. During the supply of water for irrigation, the protective curved tapes 14 perform an additional function: they evenly distribute the jets of water from the holes of the nozzles 6 in the soil, softening the flow of water around the roots.

Claims (2)

USEFUL MODEL FORMULA 1. A system for watering plants grown in mini-greenhouses, which includes a water tank, a submersible pump, a system of irrigation pipes and a device for treating water intended for irrigation, as well as a power supply system with a battery included, which is characterized by the fact that as a device an ozonator is used for water treatment, and the system of irrigation pipes contains compartments connected to it by means of tees, each of which is equipped with a series of nozzles for root irrigation. 2. A system for watering plants grown in mini-greenhouses according to claim 1, which is characterized by the fact that the compartments have corrugated areas, and the nozzles are made in the form of perforated cones with protective tapes of the perforation holes.