RU2280355C1 - Dripper - Google Patents

Abstract

FIELD: agriculture; drop irrigation.

SUBSTANCE: proposed dripper has housing with outlet hole. Perforated tube and tubular porous soft member are coaxially installed in housing. Tubular porous soft member is made of multiple-layer gas-filled plastic, for instance, polyurethane. Porous member is divided by perforated tubes. Water permeability of porous member between perforated tubes decreases in peripheral direction. Float in form of hollow ball is placed in space of smallest diameter tubular porous soft member. Outlet hole of housing is furnished with shutoff valve.

EFFECT: improved quality of watering owing to provision of uniform rate of watering in drop irrigation system.

1 dwg

Description

The invention relates to agricultural reclamation, and in particular to devices for drip irrigation, and can be used for irrigation of crops.

A device for drip irrigation is known, including a pipeline and a water outlet, consisting of a working chamber with an outlet and a water outlet, a water shut-off valve with a float, in which, in order to increase the uniformity of soil moistening along the length of the pipeline, it has a control chamber with water outlet and air holes connected to the working a camera by means of a telescopically extendable nozzle; in order to provide a valve with water, it is made in the form of a ring; the water shutoff valve is connected to the float by means of pins; in order to increase the reliability of the water shutoff valve, the water outlet has a guide axis for moving the float; the guide axis has a channel with holes, one of which is located in the working chamber above the maximum water level, and the other in the control chamber below the minimum water level (SU, copyright certificate No. 679185, M.cl. ² A 01 G 25/02. for drip irrigation / V.F.Dmitriev (USSR) .- Application No. 2554175 / 30-15. Declared 05.12.1977. Publish. 08.15.1979, Bull. No. 30).

The disadvantages of the described device for drip irrigation include a strict vertical installation of the pin to move the float, a high degree of water purification and a high degree of uneven delivery of irrigation rates.

The closest analogue to the claimed object includes a dropper installed across the irrigation pipeline and containing a movable nozzle and a tubular porous soft element coaxially connected with it, the second end of which is fixed inside the irrigation pipeline, in which the movable nozzle is provided with a perforated coaxially installed in it a tube fixed at one end in the hole of the pipeline, while the porous elastic element is mounted on a perforated tube with Nost change its cross-section by the movable sleeve; equipped with a clamp for the position of the movable pipe (SU, copyright certificate No. 1516061 A1, M.cl. ⁴ A 01 G 25/02. Dropper / A.V. Esikov, M.I. Golubenko (USSR). - Application No. 4389194 / 30- 15. Declared March 9, 1988. Publish. October 10, 1989, Bull. No. 39).

The disadvantages of the dropper described in relation to the problem we are solving include clogging of the porous element and the perforated pipe due to the presence of water in the irrigation pipe after it is pumped by the pumping unit, a high degree of irregularity of the irrigation norms when the water pressure drops, a high degree of water purification by filters, leaks water through o-rings.

The essence of the claimed invention.

The problem to which the claimed invention is directed is to increase the operational reliability of the dropper.

The technical result is an increase in the degree of uniformity of irrigation rate during drip irrigation.

This technical result is achieved in that in a known dropper containing an outlet, a housing with a perforated tube and a tubular porous soft element coaxially mounted therein, according to the invention, made of gas-filled plastic, for example polyurethane, the tubular porous element is multilayer, each of which divided by a perforated tube, the permeability of each porous element decreases in the peripheral direction, while in the cavity of the tubular porous the softest element of the smallest diameter is a float, and the outlet has a shut-off valve.

The invention is illustrated in the drawing, which shows a diametrical section of a dropper with the initial position of the float.

Information confirming the possibility of implementing the claimed invention are as follows.

The dropper contains a housing 1 with threaded caps 2 and 3. Cover 2 has a nipple 4 with an outlet 5. Cover 3 is provided with an outlet 6. The outlet 6 has a shut-off valve 7. When the water pressure in the cavity of the housing 1 is excessive, the shut-off valve 7 closes the outlet 6. When watering ceases, a vacuum is created in the cavity of the housing 1. The shut-off valve 7 is displaced upward in the cover 3 and provides air access into the cavity of the housing 1. Between the covers 2 and 3 in the housing 1, the perforated tubes 8, 9, 10 and the tubular porous soft element 11 are coaxially installed. The tubular porous soft element 11 is multilayer in the form hollow cylinders 12, 13 and 14.

Each of the cylinders 12, 13, 14 is bounded by a perforated tube 8, 9, 10, respectively. The tubular porous elements 11 are made of gas-filled plastic, for example polyurethane. The water permeability of the cylinders 12, 13, and 14 of each layer of the porous element 11 decreases in the peripheral direction, i.e. towards the inner cylindrical wall of the housing 1. In the cavity of the tubular porous element 11 in the form of a hollow cylinder 12 with the smallest inner diameter, a float 15 is placed. The float 15 in the form of a ball is made either hollow or from cork material. At the ends of the lids 2 and 3, annular grooves 16 and 17 of different depths are made for installation with the possibility of radial displacement of the hollow cylinders 12, 13, 14 in the annular grooves 16 and of limited displacement — perforated tubes 8, 9, 10 in the grooves 17. In the bottom of the lid 3 calibrated holes 18 are made for dosed pressureless bypass of irrigation water. The number of holes 18 determines the nominal flow rate of the dropper.

The execution of the housing 1, threaded caps 2 and 3, perforated tubes 8-10, tubular elements 11 in the form of cylinders 12-14, float 15 provide for installation suitability droppers from commercially available parts, do not contain corrosive and scarce materials.

A dropper works as follows.

From the distribution network of the drip irrigation system, water under pressure through the hole 5 in the nipple 4 of the upper threaded cover 2 enters the cavity of the inner cylinder 12 from a permeable material. When filling the cavity of the cylinder 12, the float 15 floats to the side of the socket at the end of the upper threaded cover 2 and closes the outlet 5. Due to the hydraulic shock, the shut-off valve 7 closes the outlet 6. Due to the pressure of the water in radial directions, the air is displaced through the height of the hollow cylinder 12 through micropores, filling the entire volume of the tubular porous soft element 11. Suspensions and litter settle on the inner cylindrical surface of the hollow cylinder 12. Water molecules penetrate through gas-filled plastic and through From the perforations in the tube 8, they are first displaced into the hollow cylinder 13 of the element 11, overcoming the resistance of the perforated tube 9, and then fills the cavities of the cylinder 14 and the tube 10. The water thus purified enters the cavity of the housing 1, and from it falls through the calibrated holes in the form of drops to the irrigated area. When the water level in the cavity of the cylinder 12 decreases, the float 15 drops down and opens the outlet 5. Water again fills the cavity of the cylinder 12. The pressure drops in the cavity of the cylinder 12 lead to compression of the wall of the cylinder 12, then of the cylinders 13 and 14. This leads to reducing the flow cross sections of the microholes in the porous elements 11 and increasing the hydraulic resistance. This ensures the same flow of water into the cavity of the housing 1.

From the cavity of the housing 1 drops of water only under the action of gravity through holes 18 enters the irrigated area.

When the water supply is stopped through the hole 5 into the cavity of the cylinder 12, the remaining water through the pores of the gas-filled plastic flows into the cavity of the housing 1, and from it through the holes 18 to the roots of the plant. When emptying the cavity of the housing 1, a vacuum is created in it. The valve 7 rises above the outlet 6. Thus, the dropper cavity is filled with air and completely freed from water. In the dry cavity of the dropper, all negative processes of the development of microorganisms are excluded.

The described dropper will provide an increase in the quality of irrigation due to the uniformity of the irrigation rate in the drip irrigation system.

Claims (1)

A dropper containing a case having an outlet with a perforated tube coaxially mounted therein and a tubular porous soft element, characterized in that the tubular porous element made of gas-filled plastic is multilayer, each of whose layers is separated by a perforated tube, the permeability of each layer of the porous element decreases in the peripheral direction, while in the cavity of the tubular porous soft element of the smallest diameter placed the float, and the outlet s has a shut-off valve.