SU1168297A1 - Water outlet of underground watering pipeline - Google Patents

Abstract

WATER-OUT OF THE UNDERGROUND WATER PIPELINE, including a housing with inlet and outlet openings, characterized in that, in order to increase the reliability of operation by reducing the degree of inflow, it is equipped with a vertical branch pipe mounted on the inlet opening and a check valve, and its housing is designed as a dome-shaped cup installed with a gap above the nozzle dome up, with the upper end of the nozzle and the check valve displayed under the dome roof. e

Description

The invention relates to agricultural machinery and can be used to release water from underground irrigation pipelines during irrigation of crops, as well as in other fields of technology as a backward automatic valve for closing pipelines when they release liquid into another liquid medium. A device for discharging WATER 5 is known, made in the form of a hole in the wall of a pipeline and requires various kinds of devices to prevent clay particles and soil from entering the pipeline through these openings, these devices being filters of various materials l J. The disadvantage of the device is the possibility of silt particles, soil in the irrigation pipeline. A water outlet of an underground irrigation pipeline is known, comprising a housing with inlet and outlet openings f2j. A disadvantage of the known device is the possibility of partial water penetration with suspended sludge after the termination of irrigation, therefore the pipeline is partially or fully engaged. The purpose of the invention is to increase the reliability of operation by reducing the bite. The goal is achieved by the fact that the outlet, including a housing with inlet and outlet openings, is equipped with a vertical branch pipe mounted on the inlet opening and a non-return valve, and its body is designed as a dome-shaped stack with the dome installed with a gap above the branch pipe, with the upper end of the branch pipe and reverse valve derived under the dome dome. The presence of an air gap under the dome of the dome-shaped hull, in which the end of the water outlet pipe is located, prevents water from rising at 5 sludge to the water at which water can flood the end of the water outlet pipe and flow into the irrigation pipe, including when the water supply is stopped when a backwater is formed from the water side of the device, in addition, it also creates normal conditions for the operation of the valve tube at the end. FIG. 1 shows a water discharge device installed on an underground pipeline; FIG. 2, section A-A in FIG. one; in fig. 3 section bb in fig. one; in fig. 4 shows a section B-B in FIG. 1. The device is installed in the underground pipeline 1, located in the subsoil of the soil (Fig. 1), and consists (Fig. 2) of a tube 2 with a flange for fastening the dome-shaped body 3. The ODNRM end 2 is mounted into the irrigation pipe 1, through which water is supplied from a water source, and at its other end, bred into the dome space and having flaring, a reverse spherical valve 4 is installed. The domed body 3 in the upper part has a recess to limit movement of the check ball valve 4 during operation. In the non-operating state, the check valve is resting in the expansion of the tube 2. The water fed into the pipeline lifts the check valve 4 and pours out under the dome of the housing 3 (Fig. 3). Having filled all the gaps and pores below the hull and continuing to rise, the water locks the air under the dome of the hull and compresses it to a pressure equal to the pressure of the water. In this case, the movement of the water is stopped until it moistens the entire adjoining soil and forms a hole in the soil surface. After the gullet is formed, water from the irrigation pipeline 1 flows through the tube 2 under the dome of the housing 3 and through the gullet reaches the soil surface, spreading further along the slope of the groove, strip, check or other known manner. At the completion of irrigation (Fig. 4), the flow of water from the pipeline 1 stops. The water in the ravine rushes in the opposite direction, but, having met the air pressure under the dome of the housing 3, it cannot reach the edge of the tube 2, through which it cannot penetrate the pipeline 1. In this case, the check valve 4 closes 3. tube 2, not allowing air to flow into the irrigation pipeline 1. When the soil dries out and cracks and pores form, the air in the dome space is replenished if a part of it has been consumed. 97 The proposed implementation of a device for discharging water from underground irrigation pipelines reliably prevents silt particles from penetrating into it upon completion of irrigation.

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FIG. 2

Claims (1)

WATER OUTLET OF UNDERGROUND IRRIGATION PIPELINE, including a housing with inlet and outlet openings, characterized in that, in order to increase reliability by reducing the degree of siltation, it is equipped with a vertical nozzle mounted on the inlet and a check valve, and its body is made in the form of a domed glass, installed with a gap above the branch pipe, the dome is upward, while the upper end of the pipe and the non-return valve are brought out under the dome arch. Oh d oh oh "a