RU2682053C1 - Sprinkler - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to sprinklers or sprayers and can be used for irrigation of crops. Sprinkler consists of a housing. In the center of the body is a pipeline. At the end of the pipeline a nozzle is installed. Top of the case is threaded. Outside on the lower part of the body is pivotally fixed with the possibility of deviation from the horizontal plane and rotation around the vertical axis of the ring plate with vertical racks. On the vertical racks fixed deflector. Spiral grooves are made on the working surface of the deflector. Grooves deepen as they move away from the center of the deflector. On the back side of the deflector at its center a permanent magnet of a round shape is fixed. Under the deflector is a platform. Platform is fixed on the case by means of holders. Permanent magnet of a round shape is fixed on the center of the platform. Magnets on the deflector and on the platform are directed to each other by poles of the same name. Counterweight is attached to the bottom of the platform. Counterweight has a streamlined shape.EFFECT: simplified design and increased reliability of the sprinkler due to contactless deflection of the deflector from the vertical axis.1 cl, 1 dwg

Description

The present invention relates to agriculture, in particular to sprinklers or sprayers, and can be used in combination with self-propelled sprinklers for irrigation of crops.

Known sprinkler nozzle (RF patent No. 2316946, IPC A01G 25/02 and B05B 1/18, 2008 - analogue), containing a pipe with a nozzle, a deflector mounted obliquely on a vertical axis, which is pivotally rotatably fixed, a sealed chamber, communicating with the pipeline by means of hollow brackets, a horizontal rod is rigidly fixed on the free end of the vertical axis, on one end of which a weather vane is fixed, and an overlapping plate with a flat sail is fixed on the other, also in the horizontal rod n channel, ending with a mini-nozzle located next to the overlapping plate, and in the upper part of the vertical axis there is a channel through which the channel of the horizontal rod communicates with the sealed chamber.

The disadvantage of an analogue is the complexity of the design.

Known sprinkler "Senninger i-Wob" (brochure "i-Wob sprinkler for mechanized irrigation" Senninger Irrigation Inc., p. 2 ... 7. - prototype), comprising a housing with a centrally made pipe, at the end of which a nozzle is installed, at the top of the housing a thread has been made for connecting the sprinkler to a flexible pipe, the outer plate on the bottom of the housing is pivotally fixed with the possibility of deviation from the horizontal plane and rotation around the vertical axis with an upright plate on which the deflector is rigidly fixed, I have the helical grooves on the working surface, deeper as they move away from the center of the deflector, to spray water at different angles to the horizontal plane, the deflector is deflected to the side from the vertical axis fixed on the back of the deflector in its center and having a hemispherical end that it enters in contact with the hemispherical end of the axis, fixed in the center of the platform, placed under the deflector and mounted on the body by means of holders, also to the bottom of this platform a counterweight is drunk supporting the vertical position of the sprinkler.

The disadvantage of the prototype is that those used to deflect the deflector away from the vertical axis, the spherical ends of the axes of the deflector and platform constantly wear out from interacting with each other during operation, which gradually leads to a deterioration in the performance of the sprinkler. Also, failure of one of these axes will lead to disruption of the sprinkler functionality.

An object of the invention is to simplify the design and increase the reliability of the sprinkler due to the contactless deviation of the deflector from the vertical axis.

The objective is achieved in that in a sprinkler containing a housing with a centrally made pipeline at the end of which a nozzle is installed, a thread is made at the top of the housing for connecting the sprinkler to a flexible pipe, it is pivotally fixed on the bottom of the housing with the possibility of deviation from the horizontal plane and rotation around the vertical axes an annular plate with vertical struts on which a deflector is rigidly fixed, having spiral grooves on the working surface, deepening as far from the center of the deflector, under the deflector there is a platform mounted on the housing by means of holders, a counterweight is fixed to the bottom of the platform, in addition, a permanent round magnet is fixed on the back of the deflector at its center, and a constant magnet is also fixed on its center under the deflector a round magnet, while the magnets fixed on the deflector and the platform are directed to each other by the poles of the same name, in addition, the counterweight has a streamlined shape for minimize the negative impact of wind on the vertical position of the sprinkler.

The difference between the proposed sprinkler and the prototype is that the deflector is deflected to the side from the vertical axis by a non-contact method using two round magnets directed to the same poles, with one of the magnets fixed to the back of the deflector in its center, and the second magnet fixed in the center of the platform located under the deflector. In addition, to minimize the negative impact of wind on the vertical position of the sprinkler, the counterweight is streamlined.

The drawing shows a sprinkler, front view.

The proposed sprinkler consists of a housing 1 with a centrally made pipeline, at the end of which a nozzle 2 is installed, at the top of the housing 1 there is a thread for connecting the sprinkler to a flexible pipeline. Outside, on the lower part of the housing 1, an annular plate 3 with vertical uprights 4, on which the deflector 5 is rigidly fixed, is pivotally fixed with the possibility of deviation from the horizontal plane and rotation around the vertical axis. On the working surface of the deflector 5 there are spiral grooves 6 that deepen as they are removed from the center of the deflector 5. Also on the back of the deflector 5, a permanent round magnet 7 is fixed in its center. Under the deflector 5 there is a platform 8, mounted on the housing 1 by the holders 9. On the platform 8 is also fixed in its center a permanent magnet of round shape 10. In this case, the magnets 7 and 10 fixed on the deflector 5 and on the platform 8 are directed to each other by the same poles. A counterweight 11 having a streamlined shape is fixed on the lower part of the platform 8 to minimize the negative impact of wind on the vertical position of the sprinkler.

Sprinkler works as follows.

Water under pressure passes through the pipeline of the housing 1, exits through the nozzle 2 and enters one of the spiral grooves 6 of the deflector 5.

Passing through the groove 6, the water flow creates a torque, as a result of which the annular plate 3, on which the deflector 5 is fixed by means of the racks 4, starts to rotate together with the deflector 5 on the housing 1. In this case, the magnet 10 fixed on the platform 8 constantly acts on the magnet 7 mounted on the back of the deflector 5, and since these magnets 7 and 10 are directed to each other by the same poles, the magnet 7 is constantly repelled from the magnet 10 and deflects the deflector 5, fixed by means of casing 4 on the annular plate 3, which in turn is mounted on the housing 1 with the possibility of deviation from the horizontal plane. Due to the fact that the deflector 5 rotating during operation is constantly deflected to the side from the vertical axis, water is sprayed in all directions at different angles to the horizontal plane, which ensures uniform distribution of moisture. To stabilize the vertical position of the sprinkler, a counterweight 11 mounted on the lower part of the platform 8 is used, which has a streamlined shape to minimize the impact of wind on it.

Using the proposed constructive solution will allow for a uniform distribution of moisture to deflect the deflector rotating during operation away from the vertical axis in a non-contact manner using two round magnets directed to the same poles, which will simplify the design and increase the reliability of the sprinkler.

Claims (1)

A sprinkler comprising a housing with a centrally made pipe at the end of which a nozzle is installed, a thread is made at the top of the housing for connecting the sprinkler to a flexible pipe, an annular plate with vertical struts is pivotally fixed on the outside of the lower part of the housing and rotated around the vertical axis , on which a deflector is rigidly fixed, having spiral grooves on the working surface, deepening with distance from the center of the deflector , under the deflector there is a platform fixed to the housing by means of holders, a counterweight is fixed to the bottom of the platform, characterized in that a permanent round magnet is fixed on the back of the deflector at its center, and a permanent round magnet is also fixed at its center under the deflector forms, while the magnets fixed on the deflector and the platform are directed to each other by the poles of the same name, in addition, the counterweight has a streamlined shape to minimize negativity vnogo effects of wind on the upright sprinkler.

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