SU1727718A1 - Self-pumping irrigation system - Google Patents

Abstract

Use: when watering from free-flow pipelines on the ground with elevated slopes. The essence of the invention: self-injection irrigation system consists of three water distribution devices with two irrigation pipelines in each

Description

located along the slope of the distribution pipeline 1. The two extreme devices are made in the form of two-position switches with a float valve, and the average water distribution device is in the form of a stand 22, with which irrigation pipelines 5 and 6 communicate at different levels relative to the distribution pipeline 1. A spool valve is mounted with two pistons 24 and 25 fixed to the rod 23. Heights

22 and the dimensions of the pistons 24 and 25 with the rod 23 provide for alternating communication of the distribution pipeline 1 with irrigation 5 and 6 when moving the spool. With the help of the average water distribution device, any of six irrigation pipelines 3-8 can be put into operation. moreover, the slope of the distribution pipeline 1 ensures its operation in the free-flow mode when turning on the downstream irrigation pipelines at full flow. 2 hp f-ly, 2 ill.

The invention relates to agriculture, namely to irrigation from pipelines on terrain with elevated slopes.

The purpose of the invention is to improve performance and reduce material consumption.

The goal is achieved by the fact that in an irrigation system that includes a water intake structure, a distribution pipeline, irrigation pipelines and water distribution devices at locations diverting from the distribution pipeline to irrigation systems, the water distribution devices are assembled along the slope of the water distribution pipeline by three, the extreme ones being in the form of two-position switches average in the form of a spool valve with the possibility of its hydraulic contact with the extreme two position switches while ensuring alternate supply of water to one of the six irrigation pipes included in the kit. In addition, the distance between the pistons of the spool valve is equal to the sum of two piston heights, and there is a difference of at least the sum of two heights of the said piston between the inlet and outlet parts of the distribution pipeline to the stand of the spool valve.

Using the spool distributor, water is supplied to one of the three water distribution nodes, while in the extreme nodes the water is supplied to one of the irrigation pipelines with the help of a float valve, and after the housing of the water switch is emptied, the float valve is lowered under the second irrigation pipe and With the next rise of water, the second of two adjacent irrigation pipelines remains open for water. As for irrigation pipes connected directly to the spool distributor case, their alternate connection is provided directly with the spool distributor.

With the help of an average water distribution unit, made in the form of a spool distributor, and extreme water distribution units, containing two-way flow switches, control from one point is not two, but six irrigation pipes. Despite manual control of the spool valve,

it is also prevented from moving by hydraulic, electric or other drives with control using a software device.

In addition, the tillage is almost unobstructed, since the middle one and the outlets of the lower water distribution unit occupy an insignificant place. There are no obstacles to through-flushing the distribution and

irrigation pipelines. With slopes in the direction of the distribution pipeline more than 0.01, irrigation pipelines are provided with a pressure of more than 2 m of a water column.

FIG. 1 shows the scheme of the proposed system; figure 2 - nodes of the system.

The irrigation system consists of a distribution pipeline 1 with a head valve 2 and irrigation

pipelines 3–8 with water outlets 9. Each of the irrigation pipelines 3, 4 and 7, 8 is connected to the distribution pipe with flow switches 10, respectively, for pipelines 3 and 4 and 11 for pipelines 7 and 8.

The housing of each of the switches 10 and 11 of the flow consists of a stack of 12 and 13 elliptical sections and two angles 14 and 15 at an angle to each other

Stores 12 and 16 and 17 for stand 13. In the cavity

the switch bodies 10 and 11 of the flow are placed float locking bodies 18 and 19, the rise of which is limited by the stop rings 20 in each of the taps 14-17, and the lowering by the support rod 21 placed instead of the minor axis of the ellipse of the stands 12 and 13.

The irrigation pipelines 5 and 6 are connected with the drains 22, which is simultaneously communicated with the supply and discharge of the distribution pipeline 1.

A piston mash is located in the cavity of the stopper 22, consisting of two pistons 23 and 24 connected by a piston rod 23, the upper piston 25 being pivotally connected to a screw elevator 26 which passes through a screw hole in the cover 27. The end part of the distribution pipe 1 is provided with a plug 28 with a permanently open nipple 29.

Irrigation system works as follows.

Using a screw elevator 26, the piston valve is set to the desired position, for example, the position when the piston 24 overlaps the distribution pipe 1 at its connection with the pipe 22. Then the valve 2 gradually opens. At the same time, the water gradually fills the internal cavity of the distribution pipe to the piston 24 stand 22. The air in the pipe 1 is forced out by water through the outlets 9 on the pipes 3 and 4, and also comes out in the place of the water intake in the pipe 1.

Being under one of the outlets, for example 14, the flow switch 10, the float shutter 18 floats up and, rising together with the water, closes the outlet 14, excluding the flow of water into the irrigation pipe 4. At the same time, the water rushes through the open outlet 15 and enters irrigation pipeline 3, and from it through water outlets 9 into irrigation furrows.

In order to put the irrigation pipe 5 into operation with the help of a screw elevator 26, the piston 24 is installed in a position opposite the entrance to the irrigation pipeline 6.

The system is calculated so that when the downstream irrigation pipeline is turned on at full flow, for example irrigation pipeline 5 under the upstream pipelines 3 and 4, the distribution pipeline operates in free-flow mode. If necessary, when splitting the entire flow in half or in other proportions, for example between pipelines 3 and 5, the distribution pipe

Pipeline 1 above the average water distribution node will operate everywhere in pressure mode.

To activate the irrigation pipe 7 or 8, the piston 24 must be installed opposite the entrance to the irrigation pipe 5 ..

So, using an average water distribution device (spool distributor), you can turn on any of the six irrigation pipes. In this case, it is possible to carry out any mode of water supply to the furrows: both watering with a constant and variable jet, as well as discrete technology.

5 watering. I

The flushing of the distribution pipeline, if necessary, should be carried out with the plug disconnected 28. A permanently open nipple 29

0 serves to empty the irrigation pipes 7 or 8 and the internal cavity of the switch 11, which is caused by the operating conditions of the float closure member 19. The water coming out of the nozzle 29 is usually used for irrigation.

The proposed irrigation system makes it possible to eliminate costly overall wells with the simultaneous improvement of conditions

0 plowing and cultivation. On the surface of the floor is only a hundred to the average water distribution structure. Extreme water distribution facilities (devices) are underground. From one

5 points, irrigation management is carried out from six irrigation pipelines or three water distribution structures. Simplified through flushing of the conveying pipeline.

0

Claims (3)

Claim .1, Self-pressure irrigation system comprising a water intake structure, a distribution pipeline, poly5 pipelines and water distribution devices in the places of diversion from the distribution pipeline to irrigation, in order to improve performance 0 and reduce material consumption, the system contains water distribution devices for two irrigation pipelines, sequentially arranged along the length of the water distribution pipeline, while The 5 extreme ones are made in the form of two-position float switches, and the middle one is in the form of a spool valve with the possibility of its hydraulic contact with the extreme two-position switches while ensuring alternately supplying water to one of the irrigation pipelines included in the package. 2. Irrigation system of 1, characterized in that the length of the rod between the pistons of the spool valve is equal to the sum of the two heights of the piston. 1 3. The irrigation system of claim 1, which is such that at the junction with the distributor of the valve distributor, there is a difference between the inlet and outlet parts of the distribution pipeline, which is at least the sum of two piston heights spool valve.