RU150373U1 - SPRAY NOZZLE - Google Patents

Abstract

A sprinkler nozzle comprising a body with a conical deflector, a thread being made in the lower part of the body, characterized in that a conical deflector is installed in the upper part of the sprinkler nozzle with an angle of 120 ° at its top, with a leg passing through the outlet and through a threaded connection screwed into a nut located on a cross-shaped mount in the lower part of the sprinkler nozzle.

Description

The proposed utility model relates to agriculture, in particular to irrigation plants or sprayers and can be used for irrigation of crops.

Known sprinkler nozzle (Talanov NN Improving the efficiency of irrigation with wide-sprinkler sprinkling machines with the development and use of nozzles. Abstract of dissertation for the degree of candidate of technical sciences. Penza 2011, 20 pp.) Consisting of a body with a conical deflector that is mounted on two legs . A thread is made in the lower part of the nozzle body for mounting the nozzle into the self-installation mechanism, which is fixed to the pipeline of the sprinkler machine. The conical nozzle in the nozzle body ends with a hole that is calibrated for the diameter necessary to obtain the most rational watering performance.

The disadvantages of this design are the lack of regulation for a given flow rate and pressure, clogging, low uniformity of wetting of the irrigated area due to the overlapping part of the water flow with legs located on the sides of the nozzle.

The technical task of the utility model is to simplify the design, the ability to control the radius of irrigation without changing the design of the nozzle, ensuring uniform wetting of the irrigated area.

The objective is achieved in that a deflector is installed in the upper part of the sprinkler nozzle in the form of a cone with an angle at its top equal to 120 ° with a leg that passes through the outlet and is screwed into the nut located on the cross-shaped mount in the lower part of the sprinkler nozzle.

The difference from the prototype is that in the upper part of the sprinkler nozzle a deflector is installed in the form of a cone with an angle at its top equal to 120 ° with a leg that passes through the outlet and is screwed into the nut located on the cross-shaped mount in the lower part of the sprinkler nozzle.

In FIG. 1 shows a sprinkler nozzle consisting of a housing 1, which in the upper part is made in the form of a hexagon to ensure grip with a wrench when mounted on the pipeline of the sprinkler machine, and in the lower part the body is made in the form of a cylinder on which a threaded connection 8 is cut for mounting to the pipeline . In the central part of the housing through the outlet 6 is inserted a deflector 2, which is made in the form of a cone mounted on a leg having a threaded connection in the lower part. Using a threaded connection, the deflector 2 is connected to a nut 3, which is rigidly fixed to the cross-shaped plate 4. The plate 4 is mounted in the lower part of the housing 1 in pre-made recesses 5. The housing 1 and the deflector 2 are made of polymer material. To create a dense stream of water leaving the outlet 6 in the housing 1, a reduction in the diameter of the inlet to the diameter of the outlet in the form of a cone-shaped part of the housing 7 is provided.

The deflector is made with an angle at the apex of the cone equal to 120 °, while the diameter of the legs is less than the diameter of the nozzle outlet by an amount that ensures the maximum nozzle consumption specified by the technical conditions.

In FIG. 2 the sprinkler nozzle is mounted on the piping of the sprinkler machine. Through an inlet made in the lower part of the housing 1, water under a given pressure enters the sprinkler nozzle. Passing through the cross-shaped plate 4 and flowing around the deflector leg, water in the form of a turbulent flow enters the cone-shaped part of the housing 7, where it is compressed and passes into the laminar flow. Then, through the outlet 6, water in the form of a jet flowing around the deflector leg enters the cone, where it tilts along the generatrix of the cone and is sprayed to the required radius. You can change the radius of irrigation by screwing or unscrewing the deflector into the nut 3, changing the distance h between the outlet 6 and the beginning of the deflector cone. In the lower part, the housing is made in the form of a cylinder on which a threaded connection 8 is cut for fastening to the pipeline.

The work is carried out as follows: the sprinkler nozzle is mounted on the pipeline of the sprinkler machine. Through an inlet made in the lower part of the housing 1, water under a given pressure enters the sprinkler nozzle. Passing through the cross-shaped plate 4 and flowing around the deflector leg, water in the form of a turbulent flow enters the cone-shaped part of the housing 7, where it is compressed and passes into the laminar flow. Then, through the outlet 6, water in the form of a jet flowing around the deflector leg enters the cone-shaped part of the body, where it tilts along the generatrix of the cone and is sprayed to the required radius. The plate 4 is mounted in the lower part of the housing 1 in pre-made recesses 5. You can change the irrigation radius by screwing or unscrewing the deflector 2 into the nut 3 by changing the distance h between the outlet 6 and the beginning of the deflector cone. Reducing the value of h allows you to increase the radius of irrigation, and its increase in the value of h to reduce the radius of irrigation. In the lower part, the housing is made in the form of a cylinder on which a threaded connection 8 is cut for fastening to the pipeline.

In the proposed irrigation nozzle, the ability to control the flow rate and pressure of the water, the irrigation nozzle does not become clogged, the irrigated area is evenly moistened.

Claims (1)

A sprinkler nozzle comprising a body with a conical deflector, a thread being made in the lower part of the body, characterized in that a conical deflector is installed in the upper part of the sprinkler nozzle with an angle of 120 ° at its top, with a leg passing through the outlet and through a threaded connection screwed into a nut located on a cross-shaped mount at the bottom of the sprinkler nozzle.

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