RU2173584C1 - Sprinkler unit head - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: sprinkler unit head is mounted by means of nipple and shaped nut onto water feeding pipeline of boom-type sprinkler unit or mobile sprinkler. Sprinkler head has casing, deflector fixed on column, and nozzle with central opening. Deflector is made in the form of concave bowl facing toward nozzle and provided with convex portion made in bowl mid portion. Convex portion is aligned with axis of symmetry and provided with threaded through opening. Deflector cavity is divided into sections by rigidity ribs and is equipped with undercutting on inner curved bowl surface. Undercutting is positioned between peripheral annular deflector edge and convex portion. Each section has variable section in vertical plane. Stepless motion deflector and nozzle are connected by nut. Convex portion and curved surface conjunction place are extending over conical surface. Nozzle outlet opening is defined by intersected conical inner surfaces of nozzle cavity and conical annular belt. Deflector and nozzle annular belt have equal angles of taper. Concave surface of bowl undercutting is formed by rotation of chain line. Deflector is blocked on column threaded part by butterfly screw. Sprinkler head of such construction is used in fine dispersion and drop irrigation equipment for producing adjustable size drops and for regulating irrigation intensity during sprinkler irrigation. Such head may be used for irrigation with water having characteristics which do not comply with those specified by technical conditions, for example, with water intaken from open channels and temporary irrigating ditches. EFFECT: simplified construction, improved operating conditions for heads and sprinkler machines and wider operational capabilities. 6 cl, 8 dwg

Description

 The invention relates to techniques for irrigation with fine and drip irrigation and can be used in mobile installations for producing rain with droplet sizes acceptable for irrigation of a wide range of cultivated crops.

Known nozzles of the sprinkler apparatus, comprising a housing, a deflector fixed to the rack and a nozzle with a central hole, in which, in order to enable the regulation of rain intensity during irrigation, the nozzle is made of a shape memory material with a reduction of the central hole from a larger diameter to a smaller one when heated moreover, the rack is made of the same material as the nozzle, with a mass equal to the mass of the nozzle; it is equipped with a power source and adjustable resistance, while the stand and nozzle are electrically connected to each other and connected to the power source through an adjustable resistance (SU, copyright certificate N 1616711 A1, M.cl. ⁵ B 05 B 1/18, 1/26. Sprinkler nozzles / VB Kovshevatsky Applicant - NPO YUGmelioration. Claimed - 01/31/1989 Published on 12/30/1990).

 The disadvantages of the described nozzle include a small range of changes in the size of the raindrops and the complexity of the design. To change the position of the deflector post, an entire electrical network with communications and power supplies is required.

Also known is a sprinkler baffle nozzle comprising a rack mounted housing connecting the strut support with a deflector mounted on it and housed with a rotatable fluid flow regulator, in which, with the aim of increasing the reliability of the nozzle, the quality of the spray and expanding technological capabilities, the fluid flow regulator made in the form of a cylindrical liner with diametrically located channels of different diameters, and the deflector is made with a central channel and is equipped with a in the latter with the possibility of axial movement by the core (SU, copyright certificate N 923635, M.cl. ³ B 05 B 1/18, 1/26, 1/30. Sprinkler deflector nozzle / L. B. Nodel. Applicant - Volzhsky scientific Research Institute of Hydrotechnics and Land Reclamation, Claimed on 05.27.1980, Published on 04.30.1982).

 During irrigation by sprinkling with two-console sprinkler units of the DDA-100VX family (Volgograd Plant of Irrigation Equipment OJSC), the irrigation water is drawn by a floating valve from an open irrigation system. Together with water from the channel, both sediment and mineral suspension are sucked in. During the operation of the described nozzle, the radial channels of small diameter are first of all clogged.

 Each nozzle also requires careful individual adjustment when applying irrigation water under operating pressure. To clean the radial channels, complete disassembly of the nozzle is required. All this reduces the technological reliability of the sprinkler.

In addition, a sprinkler nozzle is known that contains a nozzle, an elastic element and a housing with a flow regulator, in which, in order to ensure the effect of falling rain while maintaining a constant flow of water and simplify the design, the elastic element is made in the form of a spherical divider mounted in front of the nozzle on a movable base connected pivotally with the nozzle body, and the flow regulator is in the form of a clamp covering the body and base (SU, copyright certificate N 611680, Mcl. ² V 05 V 1/18. Sprinkler nozzle / V.P. Scherbakov. Declared 2 12/8/1976, published 06/25/1978).

 The disadvantages of the described nozzle include low rain quality and a small spray width of droplets (for moving sprinklers, a small working width with uneven intensity of rainfall distribution over the width of the irrigated strip).

Known nozzle containing a housing with an inlet channel, a divider with two parallel channels and a nozzle, in which, in order to increase its reliability in operation and improve operating conditions, the housing is made with a confuser channel located between the outlet openings of the parallel channels of the divider and the nozzle, and the output the holes of the parallel channels smoothly mate with the inlet of the confuser channel with the formation of undercuts, and the output cross section of the nozzle is made in the form of a rectangle, the longitudinal axis of which perpendicular to the plane passing through the axis of the divider channels; the ratio of the length of the longitudinal axis of the nozzle exit cross section to the length of its transverse axis is chosen to be 1.7 - 2.3, the ratio of the nozzle exit cross-section area to the sum of the areas of the divider channels is chosen to be 2.5 - 3, and the ratio of the length of the confuser channel to the length of the longitudinal the axis of the nozzle cross section is 0.8 - 1.1 (SU, copyright certificate N 1171098. A. M.kl. ⁴ B 05 B 1/18, 1/04. Nozzle / V.D. Krivko, I.Kh. Rotenberg, V.I. Priest (Declared September 28, 1983, published August 7, 1985).

 The work of the presented nozzle can be provided by water with increased requirements for the minimum content of suspensions and litter. For the operation of sprinkler machines, providing a fence with open irrigators, it is unacceptable.

 The essence of the claimed invention is as follows.

 The problem to which the invention is directed is the creation of a universal nozzle for mobile sprinkler machines and units of frontal and circular action.

 The technical result is the selection of optimal and changing droplet size and rain intensity during irrigation irrigation, increasing the reliability of the nozzle when irrigating with irrigation water, inappropriate TU and taken from open channels and temporary sprinklers, simplifying the design and improving operating conditions of the nozzle and sprinkler machines.

где a - параметр цепной линии;
e - основание натуральных логарифмов, e = 2,71828;
X - координата по оси X;
Y - координата по оси Y,
корпус с монтажной внутренней резьбой зафиксирован на резьбовой части ниппеля посредством фасонной гайки; дефлектор на резьбовой части стойки заблокирован винтом-барашком.The specified technical result is achieved by the fact that in the known nozzle of the sprinkler unit, comprising a body mounted by means of a nipple of a water supply pipe, a deflector fixed to the rack and a nozzle with a central hole, according to the invention, the deflector is made in the form of a concave bowl facing the nozzle with a bulge in its middle part and combined with the axis of symmetry of the nozzle, a threaded hole divided by stiffeners into compartments and undercut on the inner curved surface of the bowl between its eriferiynoy annular edge and a bulge, each of the compartments height deflector has a variable cross-section, provided with the possibility of stepless movement of the deflector and nozzle are connected by the rack; the conjugation of the convexity of the bowl with its curved surface is made on a conical surface; the nozzle outlet is formed by the intersection of the inner surfaces of the conical cavity of the nozzle and the conical annular girdle, while the conicity of the annular girdle and the convexity of the deflector are made equal; the concave surface of the inner bowl is formed by the rotation of the chain line branch, described by an equation of the form

where a is the parameter of the chain line;
e is the base of the natural logarithms, e = 2.71828;
X - coordinate along the X axis;
Y - coordinate along the Y axis,
a housing with a mounting internal thread is fixed on the threaded part of the nipple by means of a shaped nut; the deflector on the threaded part of the rack is blocked by a thumb screw.

 Due to the fact that the deflector, equipped with the possibility of stepless movement, is made in the form of a concave bowl facing the nozzle with a bulge in its middle part, the above technical result is achieved.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 To verify the compliance of the claimed invention with the requirement of "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed invention from the closest analogue, the results of which show that the claimed invention does not explicitly follow the prior art and technologies, since from the prior art and technologies determined by the applicant, the influence provided for by essential features has not been identified the claimed invention transformations to achieve a technical result.

 Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

 The invention is illustrated by drawings.

 In FIG. 1 shows nozzles of a sprinkler apparatus, a diametrical section, in a non-working (off) position.

 In FIG. 2 - the same for irrigation irrigation of industrial, fodder, grain crops, incl. and corn.

 In FIG. 3 - the same with fine irrigation.

 In FIG. 4 - section AA in FIG. 2, a cross-section (horizontal) section of a shaped nut when pairing the nozzle body with the nipple of the water supply pipe.

 In FIG. 5 is a section BB in FIG. 2, pairing the rack with the housing.

 In FIG. 6 is a section BB in FIG. 2, a horizontal section of a bowl deflector.

 In FIG. 7 is a section GG in FIG. 2, a horizontal section of this part of the deflector in the form of a bowl.

 In FIG. 8 is a section DD in FIG. 6, an undercut scan profile between adjacent edges of the bowl.

 Information confirming the possibility of implementing the claimed technical solution is as follows.

 The nozzles of the sprinkler unit (see Figs. 1-3) contain a housing 3 mounted by means of a nipple 1 of a water supply pipe 2, a deflector 5 mounted on a rack 4 and a nozzle 6 with a central hole 7.

 The deflector 5 (see Figs. 1-3, 6-8) is made in the form of a concave bowl facing the nozzle 6 with a bulge 8 in its middle part and a threaded hole 9 aligned with the nozzle axis of symmetry. The deflector 5 is divided by stiffeners 10 into compartments 11 and undercut 12 on the inner curved surface 13 of the bowl between its peripheral annular edge 14 and the bulge 8. Each of the compartments 11 has a variable cross-section along the height of the deflector 5. Provided with the possibility of stepless movement, the deflector 5 and the nozzle 6 are connected by means of a rack 4.

 The conjugation of the bulge 8 of the bowl with its curved surface is made on a conical surface 15.

 The inlet 16 of the nozzle 6 is formed by the intersection of the inner surfaces of the cavity 7 of the nozzle 6 and the conical ring girdle 18, the taper of the annular girdle 18 of the nozzle 6 and the bulge 8 of the deflector 5 are made equal.

где a - параметр цепной линии;
e - основание натурных логарифмов, e = 2,7188;
X - координата по оси X;
Y - координата по оси Y.The concave undercut surface 2 of the bowl of the deflector 5 is formed by the rotation of the chain line branch described by an equation of the form

where a is the parameter of the chain line;
e is the base of full-scale logarithms, e = 2.7188;
X - coordinate along the X axis;
Y is the coordinate along the y axis.

 The housing 3 with the mounting internal thread 19 is fixed on the threaded part of the nipple 1 by means of a shaped nut 20. The deflector 5 on the threaded part 21 of the rack 4 is blocked by a thumb screw 22.

 The stand 4 on one side has a threaded end 21 on which the wing screw 22 is located. The stand 4 on the other end with the casing 3 is connected by means of a radial jumper 23 in its cavity and a mustache 24 on its stamped end.

 The presence of the wing screw 22 allows you to fix the deflector 5 in one of the working (Fig. 2 and 3) or non-working (Fig. 1) positions.

 The nozzles of the sprinkler apparatus works as follows.

 Irrigation water under operating pressure through the water supply pipe 2 through the nipple 1 enters the housing 3 the nozzle of the sprinkler unit through the central hole 7 is sent to the nozzle 6. In the cavity 17 of the nozzle 6, the cross section (living section) in the direction of the annular band 18 decreases, thereby increasing the pressure in the outlet 16. Water flow due to the conical annular girdle 18 is ejected partially on the conical surface 15 of the convexity 8 in the center of the bowl and on the curved-concave surface 13 of the compartments 11. On the surface In addition, each drop formed by rotation of a chain line branch around a vertical axis (Y-axis), each drop of water stretches in the form of a thin film and is released with additional acceleration into the atmosphere. When meeting with the air stream, the water film breaks into small water particles and in free fall enters the leaf surface, stems and soil surface in the irrigated area (Fig. 2).

 During fine irrigation, the deflector 5 is brought closer to the nozzle 6 in such a way that a gap ε is formed between the convexity 8 and the conical annular girdle 18. The gap ε is set as follows. The thumbscrew 22 is unscrewed from the threaded portion 21 of the strut 4. By rotating the deflector 5 over the peripheral edge 14 on the threaded portion 21 of the strut, the clearance ε is reduced clockwise. One full revolution of the deflector 5 around the axis of the strut 4 corresponds to a change in the size of the annular gap by 0.4 mm. The value of the gap ε affects the size of the droplets and the irrigation rate during fine irrigation. After installing the deflector 5 relative to the nozzle exit 6, its position is fixed with a thumb screw 22 (Fig. 3).

 The nozzles of the sprinkler unit when watering outlets into irrigation furrows can be completely turned off. To do this, the sprinkler operator, having opened the wing-screw 22 on the stand 4, the deflector 5 is screwed onto the threaded part 21. When the conical surface 15 of the convexity 8 of the bowl is paired with the annular belt 18 of the nozzle 6, the deflector 5 is locked on the axis 4 by the wing-screw 22 (Fig. 1).

 At the end of the irrigation season, the operator removes the nozzles from the nipples 1 of the water supply pipe 2. For this, the shaped nut 20 is screwed in clockwise. The housing 3 is screwed from the threaded part 19 of the nipple 1. The shaped nut 20, the housing 3 and the deflector 5 are stored in a closed warehouse.

 Thus, the above set of essential distinguishing features ensures the achievement of the technical result perceived by the applicant.

 Therefore, the claimed invention meets the criterion of "industrial applicability".

Claims (6)

 1. The nozzle of the sprinkler unit, comprising a body mounted by means of a nipple of a water supply pipe, a deflector fixed to the rack and a nozzle with a central hole, characterized in that the deflector is made in the form of a concave bowl facing the nozzle with a bulge in its middle part and a threaded joint with an axis of symmetry a hole divided by stiffeners into compartments and undercut on the inner curved surface of the bowl between its peripheral annular edge and convexity, each of the compartments in height the deflector has a variable cross-section, provided with the possibility of stepless displacement of the deflector and nozzle are connected by the rack.  2. Nozzles according to claim 1, characterized in that the conjugation of the convexity of the bowl with its curved surface is made on a conical surface.  3. Nozzles according to claim 1, characterized in that the nozzle outlet is formed by the intersection of the inner surfaces of the conical cavity of the nozzle and the conical annular belt, while the conicity of the annular belt of the nozzle and the convexity of the deflector are made equal. 4. Nozzles according to claim 1, characterized in that the concave surface of the undercut of the bowl is formed by rotation of a branch of a chain line, described by an equation of the form

where a is the parameter of the chain line;
e is the base of the natural logarithms, e = 2.71828;
x is the coordinate along the X axis;
y is the coordinate along the y axis.  5. Nozzles according to claim 1, characterized in that the housing with mounting internal thread is fixed on the threaded part of the nipple by means of a shaped nut.  6. Nozzles according to claim 1, characterized in that the deflector on the threaded portion of the rack is blocked by a thumb screw.

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