RU2532319C1 - Method of capillary irrigation from the covered ground of vineyard plantation (russian logic version - version 6) - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method of capillary irrigation from the covered ground on the vineyard plantation includes making of vineyard crone in the form of bowl composed by ring-shaped suports, sequentially increasing by diameter, which are connected to each other with rigid radial guides, which are fixed in the lower part of the bowl on the upper part of the vertical support, the lower part of which is fixed on the upper part of the bowl-shaped vessel, which is positioned above the ground, installation of the pipeline with the water outlet holes and coaxial vertical branch pipes for supply of irrigation water into the internal part of bowl-shaped vessels, which are positioned on the vineyard plantation inside soil, in the upper part of the bowl-shaped vessel a coaxial hole is made, and inside it a coaxial restrictive branch pipe for limitation of irrigation water level inside of the bowl-shaped vessel is provisioned, the lower part of the vertical branch pipe of a waterpipe is tightly connected to the upper part of the bowl-shaped vessel for supply of irrigation water into its coaxial hole. The pipeline is installed in the lower part of bowl-shaped vineyards, along each bowl-shaped vineyard the additional vertical supports are fixed and their upper parts are connected to the respective ring-shaped supports in each cup from the diametrally opposite sides, the vertical branch pipes of the pipeline are positioned inside a vertical support and their lower end is tightly connected to the central hole of the bowl-shaped vessel for supply of irrigation water in their internal part.

EFFECT: ensuring of independent removal of irrigation water from the pipeline.

2 cl, 3 dwg

Description

The invention relates to agricultural production and can be used for underground irrigation of woody plants and vineyards. The application of technological solutions will allow fruitful trees and vineyards to create favorable biolo

conditions for long-term food production.

A known method of capillary irrigation of a tree-like vineyard from a covered ground (see Patent RU No. 2475019, IPC A01G 25/02), comprising installing a pipeline with water outlets, while vertical orthogonal nozzles are placed and sealed to it at the locations of the water outlet of the pipeline some of which with a water outlet are located above the ground, while a cup-shaped vessel coaxially with them is arranged with a coaxial internal groove in its upper part, which, after introduction, is cup-shaped of the container in the ground aligned with the top of the vertical pipe orthogonal, then the resulting space between the upper part of the cup-shaped receptacle and the ground surface through the water outlet vertical orthogonal pipe filled with irrigation water. In this case, the water outlet in the vertical orthogonal nozzle is either in its upper part or in the form of a gap between its upper part and the coaxial internal groove of the bowl-shaped vessel. In this case, the side walls of the bowl-shaped vessel with a coaxial internal groove in its upper part are either cylindrical or rectangular. Moreover, on the outer surface of the upper closed part of the bowl-shaped vessel, coaxial protrusions are additionally performed to fix the restrictive spiral that forms the trunk of the tree-like vineyard. In this case, the crown of the vineyard is made in the form of annular supports consecutively increased in diameter, interconnected by rigid radial guides, which are fixed in the lower part of the “bowl” on the upper part of the vertical support, the lower part of which is fixed on the upper part of the outer bowl-shaped vessel, which is positionally positioned in the ground (prototype).

The known method of capillary irrigation of a tree-like vineyard from a closed ground has technological capabilities, which are the possibility of irrigating a vineyard from a closed ground.

A disadvantage of the known method of capillary irrigation of a tree vineyard from closed ground is the limited functionality of the irrigation procedure, since there is no possibility of independent removal of irrigation irrigation water, since there is no possibility of independent removal of irrigation water “H ₂ O” from the pipeline with water outlets with vertical nozzles for the winter period .

The technological result of the proposed method is to improve the well-known technological solution of capillary irrigation from the closed soil of the vineyard by changing the procedure for supplying irrigation water “N ₂ O” to the inner part of the bowl-shaped vessel, which is positionally located in the soil, and it allows, after stopping the supply of irrigation water to the pipeline, in a natural way remove irrigation water from it.

The specified technological result is achieved in the following way.

A method of capillary irrigation from a closed ground on a vineyard plantation, including the implementation of the crown of the vineyard in the form of a "bowl" of consecutively increased in diameter ring-shaped supports, which are interconnected by rigid radial guides that fix in the lower part of the "bowl" on the upper part of the vertical support, the lower part of which is fixed on the upper part of the bowl-shaped vessel, which is positionally positioned above the ground, as well as including the installation of a pipeline with water outlets and coaxial tical pipes for supplying irrigation water to the inner part of the bowl-shaped vessels, which are positioned on the vineyard plantation inside the soil, while in the upper part of the bowl-shaped vessel a coaxial hole is made, and a coaxial restriction pipe is made inside it to limit the level of irrigation water inside the bowl-shaped vessel, and the lower part of the vertical pipe of the water supply is hermetically connected to the upper part of the bowl-shaped vessel for supplying irrigation water to its coaxial hole. At the same time, the installation of the pipeline is carried out in the lower part of the “cup-shaped” vineyards and additional vertical supports are fixed along each “bowl-shaped” vineyard and their upper parts are connected with the corresponding ring-shaped supports in each “bowl” from diametrically opposite sides thereof, while the vertical pipes of the pipeline are positioned inside the vertical support and their lower end hermetically connected to the Central hole of the bowl-shaped vessel for supplying irrigation water to their inner part.

Figure 1 shows a bowl-shaped vessel 1, in the upper part of which a coaxial hole 2 is made, and inside it is made a coaxial restriction pipe 3 to limit the level of irrigation water inside the bowl-shaped vessel 1, and the lower part of the vertical pipe 4 of the water supply 5 (Fig. 2 and 3 ) sealingly I connected to the upper part of the cup-shaped container 1 for supplying irrigation water «H ₂ O» in its coaxial hole 2. Figure 3 shows grape "cup" of a series of enlarged diameter annular supports 6, which are interconnected by a rigid radial guides 7, which are fixed in the lower part of the “bowl” on the upper part 8 of the vertical support 9, the lower part of which 10 (Fig. 3) is fixed on the upper part of the bowl-shaped vessel 1 positionally positioned above the ground 10. In this case, the pipeline 5 with a water outlet 11 and coaxial vertical pipe 12 for supplying irrigation water to the inner part of the bowl-shaped vessel 1, which are positionally positioned on the vineyard plantation (Fig. 2) inside the soil 10. In this case, the installation of the pipeline 5 is performed in the lower part of the "cup-shaped" vi of vineyards 13 (FIG. 2) and along each “bowl-shaped” vineyard (FIG. 3), additional vertical supports 14 are fixed and their upper parts are connected with the corresponding annular supports 6 in each “bowl” 15 (FIG. 2) from diametrically opposite sides . In this case, the vertical nozzles 12 of the pipeline 5 are positionally positioned inside the vertical support 9 and their lower end is hermetically connected to the central hole 2 of the bowl-shaped vessel 1 (Fig. 3) for supplying irrigation water to their inner part. While the pipeline 5 (figure 2) is connected to a common water supply 16 for supplying irrigation water "H ₂ O" to all pipelines 5 and the corresponding bowl-shaped vessels 1 of the vineyard plantation.

Implemented the proposed method of supplying irrigation water for capillary irrigation from closed ground to vineyard plantations as follows.

Before planting the vines in the places of planting in the soil 10 (Fig. 3), the soil is removed and a bowl-shaped vessel 1 of a cylindrical shape with a coaxial hole 2 and a restrictive pipe 3 in its upper part is installed. At the same time, the upper part of the cup-shaped vessel 1 is connected to the bottom of the vertical support 9, and the coaxial hole is hermetically connected to the hole by the lower part of the nozzle 12 for supplying irrigation water “H ₂ O” inside the cup-shaped vessel 1. In this case, the trunk of one or two vines is formed spiral to the level of formation of the crown, where they are placed and fixed on the upper part of the annular supports 6 to form a “cup-shaped” crown of grapes. In this case, the annular supports 6 by means of additional vertical supports 14 are fixed with the pipeline 5 to form a "bowl-shaped" rigid structure of the ring-shaped supports 6 of the "bowl". After that, the general water supply system 16 (FIG. 2) supplies irrigation water “H ₂ O” for irrigation of the root system of the vineyard from the closed soil 10. As a result, irrigation water “H ₂ O” (FIG. 3) from the bowl-shaped vessel 6 enters the system "Capillary holes" of the soil 10 and provides a constant supply of irrigation water "H ₂ O" the root system of the vineyard. It should be noted that the introduced restriction pipe 3 allows you to limit the level of irrigation water inside the bowl-shaped vessel 1 and the time of their filling at the preliminary stage of irrigation water supply, and compressed air “Air” in the upper part of the bowl-shaped vessel 1 facilitates the accelerated penetration of irrigation water “H ₂ O "to the" irrigation zone "where the grape root system is located.

Using the proposed technological solution allows creating favorable biological conditions through capillary irrigation to increase the production of food products necessary for a person.

Claims (2)

1. A method of capillary irrigation from a closed soil on a vineyard plantation, comprising making the crowns of the vineyard in the form of a bowl of consecutively increased diameter ring-shaped supports, which are interconnected by rigid radial guides that fix in the lower part of the bowl on the upper part of the vertical support, the lower part of which fixed on the upper part of the bowl-shaped vessel, which is positionally positioned above the ground, as well as including the installation of a pipeline with water outlets and coaxial vert ical pipes for supplying irrigation water to the inner part of the bowl-shaped vessels, which are positioned on a vineyard plantation inside the soil, characterized in that a coaxial hole is made in the upper part of the bowl-shaped vessel, and a coaxial restriction pipe is made inside it to limit the level of irrigation water inside the bowl-shaped vessel, and the lower part of the vertical pipe of the water supply is hermetically connected to the upper part of the bowl-shaped vessel for supplying irrigation water to its coaxial hole. 2. The method of capillary irrigation from closed ground on a vineyard plantation according to claim 1, characterized in that the pipeline is installed in the lower part of the cup-shaped vineyards and additional vertical supports are fixed along each cup-shaped vineyard and the upper parts are connected to the corresponding ring-shaped supports in each bowl with their diametrically opposite sides, while the vertical pipe nozzles are positionally positioned inside the vertical support and their lower end is hermetically connected to the center cial bore cup-shaped receptacle for supplying irrigation water into the inner part of them.

Images