RU2752052C1 - Positional sprinkler system with rectangular irrigation zone - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the field of agriculture, in particular to sprinkler equipment. The sprinkler unit contains a support base, sprinkler wings (24) with directional end nozzles, of which three wings with an angle of 120° between them are installed in a transition unit eccentrically located relative to the central axis of the installation, and a rotation unit (6). A fourth wing of a small irrigation radius (19) is mounted in the body of the transition unit, creating additional reactive force and increasing the uniformity of precipitation distribution in the central zone.EFFECT: invention provides an increase in the uniformity of the distribution of artificial rain during positional irrigation and a reduction in energy consumption for sprinkling.5 cl, 3 dwg

Description

The invention relates to agriculture, in particular to sprinkler equipment.

A sprinkler installation is known (Patent RU 40838, IPC A01G 25/09, 2004). The known sprinkler installation includes a frame - a slide on two runners with rigidly fixed support legs. The struts in the lower part are interconnected in pairs in the transverse direction by rods. A platform with a rotation unit, a standpipe and two sprinkler wings is installed at the upper ends of the support legs. The rotation unit includes a body with a glass, to the upper part of which a cross is fixed on the thread. The body of the rotation unit with the lower support surface is fixed through the support washer on the installation platform by means of a shank screwed onto the lower threaded end of the body. A collapsible filter is attached to the free end of the shank by means of a small polyethylene branch pipe, on the shank of which a supply hose is put on.

The crosspiece has a riser with an adapter, a pressure gauge and guy wires. In the side holes, the crosses are threaded onto the parts of the two sprinkler wings. Each sprinkler fender includes a nipple, elbows, water pipe links, a coupling, a locknut, a sector sprinkler with a spherical deflector, an adapter, and a circular sprinkler with a flat deflector. Each wing has a special washer for quick attachment of the free ends to them, with the help of which the wings are installed at an angle to the horizon.

The disadvantage of the known sprinkler installation is the fact that when irrigating in a circle there are zones of excessive moisture, which leads to overconsumption of water resources, as well as to waterlogging of the soil, the occurrence of fungal diseases in plants. Or insufficient moisture, 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 closest to the invention in its technical essence is a sprinkler (Patent RU 189173, IPC A01G 25/09, 2018), consisting of a skid frame mounted on runners using support posts, which are interconnected in pairs by transverse rods, a platform fixed at the upper ends of the support legs, a rotating assembly is installed on the platform, which includes a glass with bearings and a sealing collar, pipeline links connected to the platform and a tee by means of bearings, wings located relative to each other at an angle α, with sprinkler nozzles fixed at the ends , a belt drive with pulleys, a filter that connects to the hose and an adapter that connects the links of the pipeline.

The disadvantages of the known installation are that with a low pressure of water coming from the pipeline, the reactive force received from the sprinkler nozzles is insufficient to rotate the entire structure through a pulley-belt drive, and it is also not possible to irrigate the central part of the irrigated area, which leads to an uneven distribution rainfall within the irrigated area. It is worth noting that when the entire structure is filled with water, a bending moment is formed that disturbs the alignment of the installation, creating additional resistance for rotation in the central glass.

The technical objective of the invention is to improve the uniformity of distribution of artificial rain during positional irrigation and to reduce energy consumption for sprinkling.

The technical result is achieved in that a positional sprinkler with a rectangular irrigation zone contains a support base, sprinkler wings with directional end nozzles, three wings with an angle of 120 ° between them, installed in a transition unit, eccentrically located relative to the central axis of the installation, according to the invention, a wing of a small irrigation radius is mounted in the housing of the transition unit, which creates an additional reactive force and increases the uniformity of distribution of precipitation in the central zone, and an impeller is installed in the housing of the rotation unit on the vertical axis to create an additional torque of rotation, while the inlet fitting is mounted in the housing of the rotation unit, made in the form of a tangential input, creating an additional centrifugal effect, the transition unit is connected to the central axis by means of a block of gears aimed at reducing the forces that prevent rotation, a wheel with in the possibility of rotation about the vertical axis, contributing to the maintenance of inertia of rotation and acting as a support for the horizontal part of the installation.

The invention is illustrated by drawings.

FIG. 1 shows a general view of a positioning sprinkler; Fig. 2 is a rotation unit; Fig. 3 is a transition unit.

A positional sprinkler with a rectangular irrigation zone contains a slide frame 1 mounted on runners 2 using support posts 3, which are interconnected in pairs by transverse rods 4, platform 5, fixed in the upper part of the slide frame 1. A unit is installed on the platform 5 rotation 6, consisting of the lower body 7 and the upper body 8. The central axis 9 of the installation is rigidly (without the possibility of rotation) fixed in the body of the platform 5. In the lower body 7 there is an inlet fitting 10 made in the form of a tangential input. Inside the rotation unit 6, on the vertical axis 11, an impeller 12 is installed, rigidly fixed with stoppers 13. The spring 14 with one side fixes the impeller 12 in the required position, and the other side presses the bronze washer 15, ensuring its tight fit to the fluoroplastic ring 16 installed in the upper body nozzle 8, thereby performing the function of a mechanical seal. The vertical axis 11 is connected to the horizontal arm 17, which is connected to the transition unit 18. In the case of the transition unit 18, a wing of a small irrigation radius 19 with a directional sprinkler nozzle 20 is mounted. To the lower part of the case of the transition unit 18, a wheel 21 is attached with the possibility of rotation about the vertical axis , contributing to the maintenance of rotational inertia and acting as a support for the horizontal part of the installation. In the upper part of the transitional unit (Fig. 3) there is a bearing 22, on which a tee 23 for fastening sprinkler wings 24 is installed. A gear 25 is rigidly mounted on the axis of the tee 23, which meshes with an intermediate gear 26 mounted on a horizontal arm 17 through a fastener 27 s bearing (not shown in the figure). The intermediate gear is in mesh with the central gear 28, rigidly mounted on the central axis of the installation 9.

A positional sprinkler with a rectangular irrigation zone operates as follows.

The flow of water coming from the pipeline (not shown in the figure) into the lower body 7 through the inlet nozzle 10, made in the form of a tangential inlet, is directed along the generatrix of the surface of the cylindrical body, creating a significant centrifugal effect. Acting on the blades of the impeller 12, the swirling flow creates an additional moment of rotation of the horizontal arm 17 relative to the central axis of the installation. Heading along the horizontal arm of the installation, the water flow bifurcates and enters the transition unit 18 and the wing of a small irrigation radius 19, at the end of which a directional sprinkler nozzle 20 is installed, providing an additional reaction force for rotating the installation relative to the central axis and covering the central part of the irrigated with a layer of precipitation. area, thereby increasing the uniformity of irrigation of the entire area. Moving along the transition unit 18, water enters the inner cavity of the tee 23, from where it enters the sprinkler wings 24 and reaches the sprinkler nozzles 20, breaks up into drops, which create a reaction moment, twisting the tee about the vertical axis, the resulting moment is transmitted to the gear 25, installed without the possibility of rotation, then the moment is transmitted to the intermediate gear 26, mounted with the possibility of rotation relative to the axis of attachment, which in turn transmits the moment to the central gear of the installation 28, which is rigidly fixed on the axis of the installation 9. Thus, the principle of the planetary mechanism is fulfilled, which provides the irrigation trajectory is close to rectangular.

The use of the proposed positioning sprinkler with a rectangular irrigation zone will improve the uniformity of precipitation distribution over the entire irrigated area. At the same time, the proposed design makes it possible to use it in hydraulic systems with normal and reduced pressure.

Claims (5)

1. A positional sprinkler with a rectangular irrigation zone, containing a support base, sprinkler wings with directional end nozzles, of which three wings with an angle of 120 ° between them, installed in a transition unit, eccentrically located relative to the central axis of the unit, and a rotation unit, characterized in that the fourth wing of a small irrigation radius is mounted in the body of the transition unit, which creates an additional reactive force and increases the uniformity of precipitation distribution in the central zone. 2. Sprinkler positional action with a rectangular irrigation zone according to claim 1, characterized in that it is equipped with an impeller located inside the rotation unit and rigidly fixed with stoppers on its vertical axis to create additional torque. 3. Sprinkler installation of positional action with a rectangular irrigation zone according to claim 1, characterized in that the inlet fitting, mounted in the body of the rotation unit, is made in the form of a tangential input, creating an additional centrifugal effect. 4. Sprinkler installation of positional action with a rectangular irrigation zone according to claim 1, characterized in that the transition unit is connected to the central axis by means of a block of gears aimed at reducing the forces preventing rotation. 5. Sprinkler installation of positional action with a rectangular irrigation zone according to claim 1, characterized in that a wheel is fixed in the lower part of the housing of the transition unit with the possibility of rotation about a vertical axis, which helps to maintain the inertia of rotation and acts as a support for the horizontal part of the installation.

Images