RU189173U1 - SPRINKLER - Google Patents

Abstract

The utility model relates to agriculture, namely to sprinkling equipment. The purpose of the utility model is to ensure uniform distribution of rain by installing over the entire irrigated area and reducing water consumption due to irrigation along the trajectory closest to the rectangular one. The sprinkler installation contains a frame-sled 1 mounted on the runners 2 by means of support posts 3, which are connected in pairs by transverse rods 4, platform 5 fixed on the upper ends of support posts 3, on the platform 5 a rotating unit 6 is installed that includes a glass 7 with bearings 8 and a sealing lip 9, links of the pipeline 10 connected to platform 5 and tee 11 by means of bearings 8, wings 12, located relative to each other at an angle α, with sprinkler nozzles 13 fixed at the ends, belt Transmission 14 with pulleys 15, filter 16, connecting with hose 17 and adapter 18, connecting the pipeline links.

Description

The utility model relates to agriculture, namely to sprinkling equipment.

There is a sprinkler with irrigation along the quadrilateral, consisting of the SG mine body, designed for digging into the ground and having a WA flange for connecting the water at the lower end. The shaft housing SG surrounds the cylindrical outer wall AW with an internal space which is covered with a DE cover from above. The lid DE is rotatable around a vertical axis. With the help of the latch AM, which between the lid and the SG mine body, the lid can be locked in various angles of rotation around the vertical axis of rotation. The clips at the same time can serve to prevent the cover from raising the shaft body. On the upwardly facing surface of the DF cover, an AU cutout is provided, which in the initial position of the sprinkler with irrigation along the quadrilateral is closed with the RF surface of the sprinkler head submerged under the surface of the DF of the cover. The outer surface of the RF sprinkler head includes one or more holes of the DA nozzle system, which can be recessed to a small depth below the surface of the RF of the sprinkler head. The surface of the RF sprinkler head is flat, and located approximately in the same plane as the surrounding surface of the DF cap. (Patent for invention RU 2549764 C2, IPC В05В 3/04 (2006.01); В05В 15/10 (2006.01), A01G 25/00 (2006.01)).

The disadvantages of this sprinkler installation are the small irrigation zone and the complexity of the design.

The closest to the utility model in its technical essence is the sprinkler installation, which includes a frame - a sled on two runners with rigidly fixed support struts. Racks in the lower part are pairwise interconnected in the transverse direction by rods. A platform with a rotation unit, a stand and two sprinkling wings is installed on the upper ends of the support pillars. The rotation unit includes a body with a glass, to the top of which a cross is attached to the thread. The body of the unit of rotation of the lower support surface is fixed through the support washer on the installation platform with the help of a shank screwed onto the lower threaded end of the housing. The collapsible filter is fastened to the free end of the shank with the aid of a small polyethylene nipple, the inlet hose is put on the shank.

In the crosspiece installed riser with an adapter, pressure gauge and stretch marks. In the side holes of the crosspiece are mounted on the thread parts of two sprinkling wings. The design of each sprinkler wing includes a nipple, elbows, parts of the water supply pipe, a coupling, a lock nut, a sector-type sprinkler nozzle with a spherical deflector, an adapter and a circular-action sprinkler with a flat deflector. Each wing has a special washer for quick attachment of free ends to them, with which the wings are mounted at an angle to the horizon. (Patent for utility model RU 40838, IPC A01G 25/09 (2000.01))

The disadvantage of this sprinkler installation is the fact that when irrigating in a circle, over-irrigation zones penetrate, which leads to excessive water resources, as well as waterlogging of the soil, the occurrence of fungal diseases in plants. Either underwatering, which causes the soil to dry out and, as a result, can cause a decrease in yield, product quality, and also lead to the death of plants.

The goal of the utility model is to ensure uniform distribution of rain by installing over the entire irrigated area and reducing water consumption, due to irrigation along the path that is closest to the rectangular one.

This goal is achieved by the fact that a sprinkler installation containing a support base, sprinkling wings with directional end caps, according to the utility model, in order to improve the quality of irrigation, the sprinkler installation is equipped with three wings with an angle of 120 ° between them and mounted on an axis eccentrically located relative to the central axis , which is connected to the central axis of the pipeline, by means of a belt transmission with pulleys, which allows to provide trajectories of end nozzles close to right flax and described by a system of equations

FIG. 1 shows a sprinkler, general view.

FIG. 2 shows the irrigation irrigation trajectory.

The sprinkler installation contains a frame-sled 1 mounted on the runners 2 by means of support posts 3, which are connected in pairs by transverse rods 4, platform 5 fixed on the upper ends of support posts 3, on the platform 5 a rotating unit 6 is installed that includes a glass 7 with bearings 8 and a sealing lip 9, links of the pipeline 10 connected to platform 5 and tee 11 by means of bearings 8, wings 12 relative to each other at an angle of 120 °, with sprinkler nozzles 13 fixed at the ends, hydrochloric transmission 14 with pulleys 15, filter 16, a connecting hose 17 and an adapter 18 connecting the pipeline units.

Works proposed sprinkler as follows.

When water is supplied from the main pipeline (not shown in the figure) through the hose 17, the water passes through the filter 16, then moves along the links of the pipeline 10, enters the wings 12 eccentrically located relative to the central axis of the installation and relative to each other at an angle of 120 °, after which it is sprayed through sprinkler nozzles 13, which leads to the emergence of a reactive force, which causes the wings to rotate around its axis, at the same time, due to the belt transmission 14 with pulleys 15, rotation occurs around the central axis of the mouth setting, thereby providing irrigation along the trajectory closest to the rectangular described system of equations

where b is the length of the horizontal link of the pipeline (eccentricity value), m;

α is the angle of rotation relative to the driving pulley, (rad / sec);

β is the angle of rotation relative to the driven pulley, (rad / sec);

- длина крыльев дождевальной установки, м;

- the length of the sprinkler wings, m;

t - installation operation time, sec.

The application of the proposed sprinkler installation will improve the quality of irrigation, due to the irrigation trajectory closest to the rectangular one, which allows to reduce underfilling and overflow areas, thereby reducing water consumption.

Claims (7)

A sprinkler installation containing a support base, sprinkling wings with end nozzles of directional action, characterized in that, in order to improve the quality of irrigation, the sprinkler installation is equipped with three wings with an angle of 120 ° between them and mounted on an axis eccentrically located relative to the central axis, which is connected with the central axis of the pipeline through a belt drive with pulleys, which allows us to provide trajectories of end nozzles that are close to rectangular and are described by the equation system

, where b is the length of the horizontal link of the pipeline (eccentricity value), m; α is the angle of rotation relative to the driving pulley, (rad / sec); β is the angle of rotation relative to the driven pulley, (rad / sec); l is the length of the wings of the sprinkler, m; t - installation operation time, sec.

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