RU2152710C2 - Subsurface irrigation system - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: irrigation system has water source connected via vacuum valve to distribution line equipped with water discharge branch pipes, which have vessels with opening and closing float valves arranged in their upper parts. Upper part of each water discharge branch pipe is positioned in vessel, and this part is provided with openings, with total area of openings not exceeding water discharge branch pipe section area. System allows lands having portions with different kinds of soil to be uniformly irrigated. Moreover, excessive water consumption is eliminated. EFFECT: increased efficiency and simplified construction. 2 dwg

Description

 The invention relates to the field of agriculture and can be used for irrigation of crops.

A known system for locally pulse irrigation (Set of locally pulse irrigation KLIP-18 - Prospect, Kolomna, VNPO "Rainbow", 1993)
The system provides a portioned water supply without taking into account the needs of each plant and the absorption capacity of the soil.

 The closest in technical essence is the irrigation system, which includes a water source through a vacuum valve connected to the distribution network, and outlets equipped with a tank, in the upper part of which a two-position float valve is mounted (RU, application N 96107670/13, A 01 25/06.) The known system ensures the flow of water into the soil as it is absorbed.

 The disadvantage of this system is that in areas with soil diversity due to different water permeability of the soil, it is impossible to achieve uniform irrigation, and in sandy areas there is a large loss of irrigation water.

 The purpose of the invention is to ensure uniform irrigation and the exclusion of water overruns.

 The goal is achieved by the proposed system of intra-soil irrigation, including a water source, through a vacuum valve connected to a distribution network equipped with water outlet pipes equipped with tanks with a two-position float valve in their upper part, characterized in that the upper part of the water outlet pipe is placed in and on This section has several holes, the total area of which does not exceed the cross-sectional area of the water outlet.

 In FIG. 1 shows a general view of an intra-soil irrigation system; in FIG. 2 - sectional water outlet (side view).

 The intra-soil irrigation system includes a water source 1 connected through a vacuum valve 2 to a water supply pipe 3 connected to irrigation pipes 4, on which water outlets 5 are installed, consisting of tanks 6 with two-position float valves 7 and water outlet 8 with openings 9, the total area of which is not exceeds the cross-sectional area of the nozzles 8.

 The system operates in the following sequence.

 Pipes 8 tanks 6 are buried in the soil in the area of the plant roots. From the water source 1 with the vacuum valve 2 turned off, water supply 3 and irrigation 4 pipelines, and also tanks 6 of water outlets 5 are filled with water, displacing air through valve 7.

 After the tank 6 is completely filled, the valve 7 blocks access to water, and after filling all the tanks 6, a decrease in pressure in the water source 1 ensures that the vacuum valve 2 is closed. Water is consumed through the nozzles 8 as it is absorbed by the soil, and water is then sequentially taken from the tanks 6, irrigation 4 and water supply 3 pipelines until a vacuum is created in them, after which the on-off float valve 7 is activated, preventing the breakdown of the vacuum. When the specified vacuum level is reached, the vacuum valve 2 opens, and water flows through pipelines 4 and 3 into the tank 6. If, in some section, because of the high permeability of the soil (for example, sand), the outflow of water from the tank 6 occurs too quickly, then the level water in it faster than in other containers, will reach the level of the openings 9 of the pipe 8, and since the total area of the holes is not larger than the cross-sectional area of the pipe 8, then as the water level in the tank 6 decreases, the upper end of the water outlet pipes 8 will be “exposed” then, one after the other, openings 9 on the nozzle 8, while the passage area will decrease and, accordingly, the flow of water into the soil will decrease, and the flow rate of water from this tank will correspond to the flow rate of other outlets 5.

 Thus, the proposed system of intra-soil irrigation allows for areas with soil variegation to ensure uniform irrigation and to eliminate water overruns.

Claims (1)

 An intra-soil irrigation system including a water source interfaced through a vacuum valve with a distribution network equipped with water outlet pipes equipped with tanks with a two-position float valve in their upper part, characterized in that the upper part of the water outlet pipe is placed in the tank and has several holes in this section, the common the area of which does not exceed the cross-sectional area of the water outlet.

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