SU1701185A1 - Irrigation unit - Google Patents

Abstract

The invention relates to agriculture, namely to devices for supplying water to the furrows. The purpose of the invention is to increase work efficiency. On the irrigation pipe 2 installed water outlets. containing a supply pipe 1, on the free end of which a body 4 is fixed, made in the shape of an inverted cup, inside of which there is a valve. consisting of a partition with an opening 7, dividing the body into an upper non-pressure 9 and lower suction 10 syphon chamber. The lower bellows chamber, to the bottom of which the valve 12 is attached, is filled with liquid. The upper bellows chamber is equipped with a siphon 14. A cup shaped deflector 16 is fixed to the nozzle 1 below the outlet 13. Before starting operation, the valve 12 under the influence of the weight of the liquid tightly closes the outlet 13. When the pressure in the pipeline reaches a certain pressure, the valve 12 starts to rise, the bellows the chamber 10 is compressed, the liquid 11 flows through the opening 8 into the bellows chamber 9. Thus, through the output end 13, water flows into the reflector 16 and then into the furrow. 2 Il. with s

Description

The invention relates to agriculture, and in particular to devices for supplying water to the furrows.

A watering device is known, including a vertical pipe with a check valve for closing the outlet of the pipe. The nozzle body has funnel-forming holes through which water pre-moistens the soil, which should facilitate the opening of the flat valve.

Closest to the proposed one is an irrigation device containing water outlets installed on the irrigation pipeline, each of which has a nozzle, on the free end of which a body is made, made in the form of an inverted glass and a valve.

The disadvantage of this device is the low reliability of operation, due to the fact that the shut-off element does not immediately come into contact with the elastic element, as a result of which it starts to vibrate with incomplete pressure in the pipeline, and not all water outlets start working at the same time, since the valve is first free. As a result of this, on a long pipeline in its end part, the pressure decreases and water cannot enter the furrow. When the pipeline is quickly filled with water, the valve first begins to vibrate, and then comes into contact with the elastic element. In this case, the return of the valve to the socket of the nozzle may not occur after a long time of operation, since the spring loses its elasticity in aggressive water.

The purpose of the invention is to increase the reliability and overall performance.

In FIG. 1 shows an irrigation device in a closed position; in FIG. 2 - the same in working mode.

The irrigation device includes a supply pipe 1, fixed to the main pipe 2. At the output end 3 of the pipe 1, a housing 4 is fixed, made in the form of an inverted glass with a cover 5 with a fitting 6 for connection with the atmosphere. The housing 4 is equipped with a partition 7 with a Central hole 8, dividing it into the upper pressureless 9 and the lower suction 10 bellows chambers. The bellows chamber 10 is filled with liquid 11. A valve 12 is attached to the lower end of the chamber 10, which is in contact with the outlet 13 of the pipe 1. A siphon 14 is placed in the upper chamber 9, one end of which is fixed in the hole to the partition 7 coaxially with the throttling hole 8. and the other end 15 bent and facing the bottom part of the upper chamber 9. A guide reflector 16 of a cup-shaped shape is mounted on the pipe 1 below the outlet 13.

Irrigation device operates as follows.

After assembly, the lower bellows chamber 10 is filled with liquid 11 in a known manner. In this case, the valve 12 under the influence of the weight of the liquid in the lower chamber 10, which is stretched, tightly closes the outlet 13 in the pipe 1, as well as in the lower part of the housing 4.

During operation, irrigation water enters the irrigation pipe 2 of the underground irrigation system. Upon reaching a certain water pressure in the irrigation pipe 2, the static pressure of water acts from below on the valve 12 and gradually the bellows chamber 10, limited by the walls of the housing 4, is compressed. The liquid 11 flows from the cavity of the chamber 10 through the hole 8. the curved tube 14 into the cavity of the pressureless chamber 9, in which the volume of liquid increases, and atmospheric air leaves through the nozzle 6. Valve 12 smoothly opens the outlet 13 in the pipe 1 and in the housing 4.

The displacement of the liquid 11 from the lower chamber 10 occurs due to overcoming the resistance of the curved tube 14. Next, the displaced liquid 11 fills the cavity of the upper chamber 9 until the predetermined opening of the outlet 12 by the valve 12 is established. The rate of fluid flow through the tube 14 can be set and depends on its parameters, which are selected during design in such a way as to exclude a rapid decrease in water pressure along the length of the pipeline 2, and the valve has a slow travel upward movement, increasing the flow area for the floor implicit water. This process occurs simultaneously at all outlets of the irrigation system, as a result of which the water pressure is stabilized along the entire length of the pipeline 2.

In addition, the liquid displaced into the upper chamber 9 does not exert pressure by the weight of water on the lower chamber 10 due to the fact that a siphon tube 14 is placed in the cavity of the upper chamber 9. Consequently, the valve 12 is supported uniformly only by the water pressure from the pipe 1, and av? the set flow rate of water into the furrows in all water outlets is automatically supported. As the upper chamber is filled (there is a gradual rise in the liquid in it towards the cover 5, which, in turn, prevents water hammer when the valve 12 is gradually raised.

After turning off the water in the irrigation pipe 2, the valve 12 begins to sink due to the effect of liquid suction by the tube 14 into the cavity of the suction bellows chamber ί 10, i.e. the tube 14 starts charging and works like a siphon.

The siphon 14 charges and quickly pumps the liquid 11 from the upper chamber 9 into the lower chamber 10 until the end 1 15 of the siphon tube 14 is immersed in the liquid in the bottom part of the pressureless chamber 9, i.e. at the partition 7. Water quickly fills the cavity of the suction bellows chamber 10 under the influence of its weight and stretching 1 of the walls of the chamber 10, the check valve 12 quickly closes the outlet 13 in the pipe 1 with a high degree of sealing and reliability, as well as an annular hole in the housing 4, 2

As a result of the fact that the pipe 1 and the lower cross section of the housing 4 are closed by the valve 12 above, the readiness of the control bellows 10 for operation is preserved; there is no pollution of the housing cavity with soil. Water hammer is suppressed due to the passage of fluid through the curved siphon tube 14,

Claims (1)

5 claims An irrigation device containing water outlets installed on the irrigation pipeline, each of which has a nozzle, on the free end of which there is a body made in the form of an inverted cup, and a valve, characterized in that, in order to increase work efficiency, the body is equipped with a partition with an opening, dividing it into the upper and lower chambers, and a bellows filled with liquid, which is located in the lower chamber, the upper part is hermetically connected to the partition, and the lower - to the valve, while in the upper chamber A siphon is inserted, one end of which is fixed in the hole of the partition, and the other is curved and facing the bottom part of the upper chamber.