RU1794412C - Irrigation system - Google Patents

Abstract

The invention relates to agriculture and can be used to irrigate orchards and vineyards on land with a slope greater than critical. SUMMARY OF THE INVENTION: in the rational use of irrigation water by the ability to shut off irrigation pipelines not involved in the i-i irrigation process. The irrigation system includes a main pipe 2 with shut-off and control devices, consisting of a pipe 2 with a water outlet 4, an adjustable needle valve 7 on the rod 8, the latter being a connecting link between the valve 7 and the float 9 located in the tank 10 with a water outlet connected to the irrigation pipe 12, a holder in the form of a cup 1 with through holes 15 and protrusions 6 for fixing it in the nozzle during operation and on the thrust ring during the termination of water supply to the irrigation ruboprovod - otvod.6 yl. / and ate C

Description

The invention relates to agriculture, in particular to irrigation equipment, and can be used to irrigate orchards and vineyards on the lands of the foothill zone with a slope greater than critical as a distribution pipeline.

The purpose of the invention is the rational use of water during irrigation by shutting off irrigation pipelines not involved in the irrigation process.

Figure 1 shows the irrigation system in plan; figure 2 - section 1-1 along the water outlet and irrigation pipeline; in Fig.Z - section aa in Fig.2; figure 4 is a section bB in figure 2; figure 5 is a section bb in figure 2; in Fig.6 is a section GG in Fig.2.

An irrigation system containing an irrigation source 1 and an associated main pipeline 2 laid with a positive slope and made in the form of a section with a sequential reduction in the diameter of the pipeline 2 i.e. diameters of sections along the length. The main pipeline 2 has nozzles 3 with a water outlet 4 evenly distributed along the length, and a nozzle 3 of the thrust rings 5 with protrusions 6 symmetrically arranged along its perimeter and made to be inclined on both sides with an apex in the middle. The water outlet 4 pipe 3 is equipped with a locking and regulating body, in the form of a needle valve 7 on the stem 8, which is a connecting link between the valve 7 and the float 9, located in the tank 10 with the water outlet pipes 11 and connected to it by irrigation pipelines 12 with the water outlet tubes 13. which are laid horizontally perpendicular to the main pipeline 2, Capacity 10 by means of a U-shaped bracket 14 is attached to the pipeline 2, and the needle valve 7 regulating the water outlet 4 of the pipe 3 are located basically with a holder in the form of hollow half-cups with a through hole 15 on the side walls for passing water into the container 10, and consisting of upper 16 and lower 17 half-cups. The lower half glass 17 with a bottom axial hole 18 and side holes 15 is a guide for the valve 7 during operation of the locking and regulating body. The upper half-glass 16 by means of protrusions 19 is suspended on a circular protrusion 20 of the housing of the outlet pipe 3. i.e. locking-regulating chergan is equipped with a stop ring 5 with protrusions 6 for fixing the hollow glass when

it is necessary to stop the water supply to the tank 10 and the irrigation pipe 12.

Irrigation system with main pipe 2, locking and regulating

bodies and irrigation pipelines 12 work as follows.

In the absence of water in the irrigation source, the open channel 1 and the main pipe 2, the regulating body, under the weight of the valve elements 7, rod 8 and float 9 movable in operation, abuts against the bottom surface of the holder half-glass 17 and the exit from the water outlet 4 is open at all points of selection. As water is supplied

in the channel 1, water enters the pipeline 2 and filling the last enters the e container 10 through the water outlet 4 and the side holes 15 of the hollow holder glass. Water filling a tank of 10 dL

level, simultaneously enters the irrigation pipe 12 and then through the water outlet pipes 13 to the surface of the irrigated fields, and a constant level in the tank 10 is maintained by the float 9. In this case, the filling of the pipe 2 and the tank through an adjustable water outlet 4 occurs sequentially according to the principle way selection of water flow. Level increase in

0 of one of the tanks 10 brings its locking and regulating body to an equilibrium state. In this case, the flowing water flow through the water outlet 4 is equal to the total flow rate of the water outlet pipes 13 of the spill pipe 2. That is, the flow rate of the inflow into the tank 10 from the pipeline 2 through an adjustable water outlet 4 is equal to the flow rate of the outflow from the tank 10 to the irrigation pipe 12 with a water outlet

0 tubes 13 through the water outlet 11.

Thus, there is a route selection of the estimated flow rate from the irrigation pipe 2 through an adjustable

5 of the water outlet 4 to the irrigation pipe 12.

To disconnect one of the irrigation pipelines 12, regardless of its location - at the end, middle or at the beginning

0 of the pipeline 2, it is necessary to shut off the water outlet 4 by means of a locking-regulating body. For this, a holder acting as a guide must be fixed on the projections 6 of the ring

5 to 5, by means of the protrusions 19 on the upper half glass 16 of the holder, by turning the latter with its protrusions 19 clockwise or vice versa.

In this case, only the selected irrigation pipe 12 will be turned off, while others

Irrigation pipelines 12, located above and below this point, operate in the initial mode with the supply of the estimated water flow. At the same time, a flow equal to the total flow rate of simultaneously operating irrigation pipelines 12 enters the pipeline 2, and an excessive flow due to the shutdown of one of the outlets causes an increase in pressure in the pipeline 2 and reaches the irrigation source 1.

As a result of this, the feed rate to the pipe 2 from the irrigation source 1 is reduced by the sum of the costs of the disconnected outlets, i.e. irrigation pipelines 12 and vice versa, the connection of individual irrigation pipelines 12 causes an increase in the flow of water to the pipeline 2. Therefore, in the proposed, i.e. the pipeline 2 operates in an on-pump mode, and the even supply of the estimated flow rate in the irrigation pipelines 12 is provided by a shut-off and regulating body consisting of a valve 7, a rod 8 and a float 9, the latter acting as a level stabilizer in the tank 10, therefore and above the water outlets 11 and thereby provides a constant flow of water to the irrigation pipe.

In the case of water supply to pipeline 2 is less than calculated, i.e. when the total flow rate of the pipeline 2 is less than the total flow rates of the water outlets 4 - irrigation pipelines 12, then water distribution between the irrigation pipelines 12 can be carried out by alternation. To alternate, it is necessary to fix the locking and regulating body of the water outlet 4 by means of a holder on the protrusions 6 of the ring 5. This allows you to turn off the desired water outlet with irrigation pipe 12 and to supply water for irrigation in another section of the pipeline 2.

Claims (1)

Gain Formula An irrigation system containing an irrigation source and a main pipeline connected to it, laid with a positive slope and having nozzles with water outlets evenly distributed along the length, installed inside containers hydraulically connected to irrigation pipelines by means of a shut-off-regulating body made in the form of a valve installed in the tank float with a stem and valve, characterized in that, for the rational use of water during irrigation by selective operation of irrigation pipelines the nozzles in the upper part are equipped with thrust rings rigidly fixed on them with symmetrically located protrusions and working surfaces, and in the lower part - annular beads, the valves are provided with holders that enclose them, made in the form of hollow glasses with through holes on the side walls and with a hole in the bottom through which the valve stem passes, and the upper edges of the cups have rings with slots interacting with the annular flanges of the pipes, and when the valves overlap the water outlet holes and when combining slots with protrusions - with the working surfaces of the thrust rings. . . P-v ShF6 / L ft 8-b figure 5 Gg fi. 6