SU967412A1 - Irrigation system - Google Patents

Description

(54) IRRIGATION SYSTEM

The invention relates to agriculture and can be used for irrigation from closed irrigation. Irrigation systems are known, including piping with drains consisting of a casing with a movable overflow wall 1. The disadvantage of these systems is the need for special outflow devices for drawing water from the pipelines. A system is also known that includes supply and irrigation pipelines and drainage systems installed on the supply pipeline, which comprise a housing divided into pressure and pressureless parts by a movable overflow wall and provided with an outlet in the pressure section 2. A disadvantage of this system is that One hundred and one outlets are not intended to receive waste water. The purpose of the invention is to reduce unproductive water discharge by ensuring reception of transit water flow from the connected irrigation pipelines. This goal is achieved by the fact that the free-flow part of the body of each sink is equipped with a suction pipe connected with the irrigation pipe to the pressure part of the adjacent sink. FIG. 1 shows a stand with irrigation pipes connected to it, side view, section view; in fig. 2 - the same, top view. The irrigation system includes sewers for a closed irrigation network, comprising a body 1, divided into a pressure head 2 and a pressure free 3 parts overflow movable wall 4 in the form of a flat panel with a lifting mechanism 5. Two holes are made in the walls of the housing; one in part 2 of the distance from the ground with the outlet () m 6 and the second in part 3 slightly below the ground with the inlet 7. To, the orpus 1 is closed non-pressurized by a lid 8 and is installed on the inlet pipe 9 of the closed sprinkler . The drains are located on the pipelines of the system at distances that are a multiple of the length of the irrigation pipelines 10 and 11, typically 100-120 m.

The system works as follows.

In the irrigated area, parallel to the supply pipeline 9, between the pairs of effluents, one, two or more irrigation pipelines 10 and P. are installed. The downstream end of the pipeline 10 is connected, for example, by means of a flexible hose section to the outlet 6. The other end the pipe line is connected to the receiving pipe 7 on the next adjacent stand.

Before the start of irrigation, the mechanism 5 lowers the shield of the wall 4 and the water starts to flow into the irrigation pipe 9. Water moving in pipe 9 fills part 2 of housing 1 and flows through pipe 6 to irrigation pipe 10. The amount of water flow into pipe 10 is controlled by raising or lowering the shield. Excess water consumption, if it occurs, flows over the edge of the shield into the pressureless part 3 or moves further along the slope, the passage under the shield of wall 4. From the irrigation pipe 10 water flows through the water outlet holes into the grooves cut perpendicular to the pipeline (transverse irrigation pattern) .

Ensuring the uniform distribution of water flow in the grooves along the entire length of the pipeline under normal conditions is laborious and repeatedly repeated operations. However, it is greatly simplified and performed almost automatically when there is transit flow in the pipeline, which at the same time prevents sedimentation in the pipeline and prevents its sedimentation. The said transit flow, deliberately created in the irrigation pipeline, is discharged into the supply pipeline of the closed sprinkler by connecting the end of the pipeline to the receiving port 7 on the adjacent stand, as, for example, from pipeline 11.

At the end of the initial stage of irrigation, it becomes necessary to reduce the second flow of water into the furrows. By partial lifting of the shield wall 4 reduces the water level above the outlet nozzle 6. The total water flow in the irrigation pipeline is reduced, but the transit flow remains. As a result, in all water outlets, the water flow is automatically reduced by an equal amount and there is no need for multiple individual adjustments to the water outlets.

The flow through mode in the irrigation piping allows individual adjustments of the second flow rates in the furrows only once at the start of irrigation at a particular irrigated site. Subsequent adjustments are reduced to raising or lowering the wall shield 4.

At the end of one irrigation cycle as a whole, the shield is raised and the water level in part 2 below the outlet of port 6 is set. Pipe 10 is turned off and moved to the next position, reconnected to pipes 6 and 7 of the next pair of effluent and irrigated the sequence described above.

If two or more irrigation pipelines are activated on the sprinkler, and the water flow through the edge of the shield or under it is insufficient to ensure the normal operation of subsequent pipelines, then the flow rate at the head structure of the irrigator increases the flow rate and simultaneously or partially pre-lifts the shield by mechanism 5. As a result, the incoming flow is divided. One part continues to flow into the irrigation pipeline 10 or 11, the second passes a hundred to transit, and a third

it flows over the edge of the shield and contributes to the damping of the pressure. In addition, through flow pipe 7, the transit flow from the irrigation pipe returns.

This mode of operation allows effective suppression of the pressure in the sprinkler and prevents silting and clogging of the supply pipe 9 and the irrigation pipelines connected to it.

The use of the irrigation system is possible on the longitudinal scheme l (olive, when

0 one end of the irrigation pipeline is connected to the nozzle 6 on the stand of one irrigator, and the other end is connected to the nozzle 7 on the stand, located in the center of the other parallel irrigator. Similarly, drainage can be used for terraced irrigation.

 Such an implementation of the irrigation system allows reducing the unproductive discharge of irrigation water, eliminating the use of complex, expensive stop valves, reducing the level of quality and material requirements for pipes and increasing operational reliability.

Claims (2)

Invention Formula The irrigation system, which includes supply and irrigation pipelines and installed drainage pipes on the supply pipeline, includes a housing divided into pressure and pressureless parts by a movable overflow wall and provided with an outlet in the pressure section, which is designed to reduce unproductive discharge irrigation water by providing reception of -transit water flow from the connected irrigation pipelines, the free-flow part of the hull of each sink is equipped with a suction nozzle connected through fields an in-line pipeline with the pressure part of the hull of the adjacent sewer. Sources of information taken into account in the examination . Maslov .B. S., Nesterov E. A. Irrigation and drainage issues in the USA. “Kolos 1967, p. 116-117. 2. Goals M. Irrigation land reclamation. M., “Kolos, 1967, p. 87-89.