RU2202175C2 - Sprinkler unit for irrigating sloped lands - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: sprinkler unit has feeler device made in the form of spherical projection with central cylindrical opening and holder put onto spherical projection. Conical recess is formed in upper part of spherical projection at one side thereof. Axis of conical slot is inclined at an angle of 30-40 deg from vertical axis. Its apex is extending through generatrix of cylindrical opening below central axis of sphere at distance of 10-20 mm from it. Holder is put onto spherical projection so that its angle of inclination in vertical plane may be changed. Hemisphere is mounted on holder, with lower part of hemisphere being welded to holder and upper part being made in the form of cylinder equipped with internal thread. Sprinkler head with rigidly fixed sprinkling nozzles is screwed into threaded portion. Inclination angle of sprinkler head is equal to inclination angle of holder. EFFECT: increased efficiency of irrigating sloped lands by changing water jet angle depending on slope of ground. 3 cl, 2 dwg

Description

 The invention relates to agriculture, and in particular to devices for changing the angle of departure of the jet of the sprinkler, designed for irrigation of crops located on slopes and terraces.

 Known sprinkler apparatus, consisting of a curved nozzle, small and large gears, ball element, housing, collar, seat and inlet pipe [1].

 The disadvantage of this device is the complexity of the design and the inability to change the angle of departure of the jet depending on the slope of the terrain.

 The closest in technical essence to the proposed apparatus is a sprinkler for irrigation of sloping lands, consisting of a stationary riser with a spherical protrusion, a holder, a clamping ring, a bearing, traction, a movable ring and a sprinkler nozzle with movable trunks [2].

 The disadvantage of this sprinkler is also the design complexity, and the presence of a large number of moving parts reduces the efficiency of the sprinkler.

 The purpose of the invention is to simplify the design of the sprinkler and increase the efficiency of irrigation of sloping lands by changing the angle of departure of the stream depending on the slope of the terrain.

This goal is achieved by the fact that the copying device is made in the form of a spherical protrusion with a cylindrical hole in the center, and the clip is mounted on a spherical protrusion. A conical cut is made in the upper part of the spherical protrusion on one side, the axis of which is inclined at an angle of 30-40 ^o from the vertical axis, and its top is located on the generatrix of the cylindrical hole below the axis of the center of the sphere at a distance of 10-20 mm. In this case, the cage is mounted on a spherical protrusion with the possibility of changing the angle of inclination in the vertical plane, and a hemisphere is installed on the cage, the lower part of which is welded to the cage, and the upper part is made in the form of a cylinder with an internal thread into which a sprinkler nozzle with rigidly fixed trunks is screwed, wherein the angle of inclination of the sprinkler nozzle is equal to the angle of inclination of the cage.

 In FIG. 1 shows a sprinkler for irrigation of sloping lands; figure 2 is a graph of the change in the angle of departure of the sprinkler jet depending on the angle of inclination of the holder and the angle of rotation of the sprinkler nozzle.

Depicted in FIG. 1, the sprinkler apparatus consists of a stationary riser 1 with a spherical protrusion 2, having a cylindrical hole 3 in the center, and in the upper part on one side there is a conical cut 4, the axis of which is inclined at an angle γ = 30-40 ^o from the vertical axis, and the top the cone is located on the generatrix 5 of the cylindrical hole 3 below the axis of the sphere at a distance h = 10-20 mm.

The conical cutout 4 is made to ensure free passage of fluid to the sprinkler nozzle 10 at any of its working positions, and the range of variation of the angle γ from 30 to 40 ^o and the distance h = 10-20 mm are determined constructively, based on the condition of ensuring the maximum flight range of the sprinkler jet at irrigation of sloping lands with steepness from 30 to 45 ^o . A holder 7 is fixed on a spherical protrusion 2, fixed with a clamping ring 6. A hemisphere 8 is mounted on the holder 7, the lower part of which is welded to the holder 7, and the upper part is made in the form of a cylinder 9 with an internal thread into which the sprinkler nozzle 10 is screwed tightly fixed trunks 11 and 12.

 On the surface of the spherical protrusion 2 there is a graduation that determines the angle of inclination of the cage 7 (not shown).

 Sprinkler apparatus works as follows.

 When irrigating a slope, a spherical protrusion 2 is mounted on the sprinkler (not shown) so that the conical cutout 4 is directed down the slope, while the yoke 7 is set at a certain angle with respect to the slope. To do this, the clamping ring 6 is released, the cage 7 is deployed on the spherical protrusion 2 of the riser 1 at a certain angle β with respect to the surface of the irrigated area and is fixed in this position by the clamping ring 6.

In this case, the sprinkler nozzle 10 with trunks 11 and 12 deviates from the vertical axis by an angle equal to the angle of inclination β of the holder 7, while the barrel 12 rises up and increases the angle of departure of the sprinkler stream α ₁ , and the other barrel 11 goes down and reduces the angle of departure sprinkler jet α ₂ (the increased angle of departure of the stream α _{1 is} directed up the slope, and the reduced angle of departure of the stream α _{2 is} directed down the slope).

 During operation, the sprinkler nozzle 10 with trunks 11 and 12 rotates around an inclined axis and irrigates the area with a radius equal to the range of the sprinkler jet (not shown).

With the rotation of the sprinkler nozzle 10, the angle of departure of the sprinkler jet changes and is determined by the formula
α = α ₀ + arcsin (sinQsinβ),
where α ₀ - the angle of inclination of the sprinkler nozzle trunks, providing the maximum range of the jet in the horizontal plane, deg;
Q - angle of rotation of the sprinkler nozzle, degrees;
β - angle of inclination of the cage in the vertical plane, deg.

 Figure 2 shows a graph of the change in the angle of departure of the sprinkler jet depending on the angle of inclination of the holder and the angle of rotation of the sprinkler nozzle.

 As a result of the application of the proposed irrigation apparatus, it is possible to carry out effective circular irrigation of any slopes that can actually be used in agriculture, while ensuring the maximum possible radius of action in all directions and achieving uniform irrigation of the slope area due to a change in the angle of departure of the irrigation stream depending on the slope of the irrigated area .

The prototype of the proposed irrigation apparatus worked for more than a year under the conditions of one of the KBR farms when irrigating the apple orchard on a terraced slope with a slope of 30 ^o , showed good results and confirmed the possibility of effective circular irrigation of terraced slopes over 13 ^o .

Sources of information
1. USSR author's certificate 1366121, A 01 G 25/00, 01/15/08

 2. USSR author's certificate 1263214, A 01 G 25/00, B 05 B 3/00, 10/15/86 (prototype).

Claims (3)

 1. Sprinkling apparatus for irrigation of sloping lands, containing a stationary riser, a rotating double-barreled sprinkler nozzle with trunks pointing in opposite directions, a copying device made in the form of a spherical protrusion with a cylindrical hole in the center, and a clip mounted on a spherical protrusion, characterized in that in the upper part of the spherical protrusion, on one side of it a conical cut is made, while the holder is mounted on the spherical protrusion with the possibility of changing the angle of inclination in a vertical plane speed, and on the holder a hemisphere is installed, the lower part of which is welded to the holder, and the upper part is made in the form of a cylinder with an internal thread, into which a sprinkler nozzle with rigidly fixed trunks is screwed. 2. The apparatus according to claim 1, characterized in that the axis of the conical cut is inclined at an angle of 30-40 ^o from the vertical axis, and its top is located on the generatrix of the cylindrical hole below the axis of the center of the sphere at a distance of 10-20 mm.  3. The apparatus according to claim 1, characterized in that the angle of inclination of the sprinkler nozzle is equal to the angle of inclination of the holder.

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