RU2650935C1 - Finely dispersed rain simulator - Google Patents

Abstract

FIELD: irrigation technique.

SUBSTANCE: invention relates to the irrigation technique with finely dispersed and drip irrigation and can be used in mobile installations for obtaining rain with droplet sizes, permissible for irrigation of a wide range of cultivated crops. Finely dispersed sprinkler contains a cylindrical body mounted on the water supply pipe with water outlets. In the internal cavity, with the help of a threaded head having grooves for a screwdriver, a flow guide-divider is installed in the form of a paraboloid of revolution, formed by rotating the parabola of the equation z²=2ρx near the z axis, where x are the horizontal coordinates of the parabola, ρ is the constant of parabola. Base of the paraboloid is conjugated in the horizontal plane with the water outlets forming the lattice. Total area of the grid holes is taken from the condition of supplying a predetermined flow rate Q of the sprinkler water according to the equation Q =ωV, where ω – the total area of the holes, V – the rate of flow of irrigation water. Upper edge of the grating has an input chamfer, made along the parabola of the equation z²=2ρx. Upper edge of the cylindrical body has an entrance chamfer, made at an angle of 45°.

EFFECT: increase of reliability of work, simplification of a design, reception of finely dispersed sprinkling with irrigation water.

1 cl, 1 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 material with shape memory with the central hole reduced 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 adjustable resistance (SU, copyright certificate No. 1616711).

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

A sprinkler deflector nozzle is also known, comprising a housing mounted on a strut, connecting the strut to a support with a deflector mounted on it, and a fluid flow regulator rotatably mounted in the housing, in which, in order to increase the reliability of the nozzle, the quality of the spray and expand technological capabilities, the fluid flow regulator is 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 No. 923635).

During operation of the described nozzle, first of all, small-diameter radial channels are clogged. Each nozzle also requires careful individual adjustment when supplying 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.

A nozzle for a sprinkler assembly is known, comprising a body mounted by means of a nipple of a water supply pipe, a deflector fixed to the column and a nozzle with a central hole, the deflector made in the form of a concave bowl facing the nozzle with a bulge in its middle part and a threaded hole combined with the axis of symmetry, divided stiffening ribs on the compartments and undercutting the curved surface of the bowl between its peripheral annular edge and convexity, each of the compartments has height p A variable section, provided with the possibility of stepless movement of the deflector and the nozzle are connected by means of a stand (RU, patent No. 2173584).

The disadvantages of the described nozzle sprinkler unit include design complexity, low reliability, lack of the ability to obtain fine irrigation.

A finely dispersed sprinkler nozzle is known that contains a cylindrical body mounted on a water supply pipe with water outlet openings, while a conical flow divider and a screw guide fixed on its outer surface are installed, the outer diameter of which is equal to the inner diameter of the cylindrical body, the lower part of the conical divider mates with bottom edge of water outlets made in the housing tangential to the inner diameter of the body Ca and counterclockwise, screw flow guides are installed in the inner cavity of the water outlets with counter-clockwise winding of the coils, a conical flow divider is fixed in the inner cavity of the casing by means of a thread, while the generators of the conical divider are mated with the lower edge of the water outlets in a radius equal to the diameter of the water outlets, while the number of visits of the helical guide of the conical divider is equal to the number of water outlets, the number and diameter of dovypusknyh orifices selected from the conditions specified supply flow sprinkler nozzle (RU, №2343995 C1 patent).

The disadvantages of this sprinkler nozzle include design complexity, increased hydraulic resistance.

This design is accepted as the closest analogue.

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 sprinkler machines, providing specified water flow rates, fine sprinkling, the possibility of simplified maintenance.

The technical result is an increase in reliability, simplification of the design, obtaining fine irrigation with irrigation water.

The specified technical result is achieved by the fact that in the known finely dispersed sprinkler containing a cylindrical body mounted on the water supply pipe with water outlets, while in the inner cavity with the help of a threaded head having grooves under the screwdriver, a flow divider in the form of a rotation paraboloid formed by rotation parabola equation ² z = 2ρx about z axis, where the x - coordinate horizontal parabola, ρ - constant parabola conjugate base of the paraboloid in the horizontal th plane with water outlet openings forming the grate, the total area of the holes of the grate is taken from the condition of supplying a given flow rate Q of irrigation water according to the equation Q = ωV, where ω is the total area of the holes, V is the rate of flow of irrigation water, the upper edge of the grate has an input chamfer made according to the parabola of the equation z ² = 2ρx, the upper edge of the cylindrical body has an input chamfer made at an angle of 45 °.

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 criterion of "Novelty" under existing law.

The invention is illustrated in the drawing.

Information confirming the possibility of implementing the claimed invention are as follows.

The fine sprinkler is mounted on the water supply pipe 1 having a water outlet 2, which is coupled to a threaded tip 3, which is fixed to the water supply pipe 1 by welding. A cylindrical housing 5 is mounted to the threaded tip 3 by means of thread 4, the upper part of which has an inlet chamfer 6 made at an angle of 45 °. In the inner cavity of the housing 5, a flow divider 7 is installed using a threaded head 8 having a thread 9 and a groove 10 for a screwdriver. The divider-guide 7 of the flow is connected by a base in a horizontal plane with the water outlet 11, forming a lattice. The total area of the holes is taken from the condition for supplying a given flow rate of sprinkling water according to the equation Q = ωV, where ω is the total area of the holes, V is the flow rate of irrigation water. The upper edge of the lattice has an input chamfer 12 made according to the parabola of the equation z ² = 2ρx, where z are the coordinates of the vertical axis, x are the coordinates of the horizontal axis, ρ is the constant of the parabola. The flow divider 7 is made in the form of a rotation paraboloid formed by the rotation of the parabola of the equation z ² = 2ρx about the z axis, where x is the horizontal coordinate of the parabola, ρ is the parabola constant.

Fine sprinkler works as follows. When water is supplied from the water supply pipe 1 to the cylindrical body 5, the stream is compressed when it meets the divider-guide 7, and its speed increases. In the lower part of the housing 5, the flow from the action of the divider-guide 7 is directed to the water outlet 11, which ensure the destruction of the flow into fine droplets entering horizontally on the irrigated area. When meeting with atmospheric air, the droplet speed decreases and they settle on the irrigated area in the form of a fine stream , which prevents the impact of drops on the soil and its negative impact.

Claims (1)

A finely dispersed sprinkler containing a cylindrical body mounted on the water supply pipe with water outlets, characterized in that a flow divider in the form of a rotation paraboloid formed by rotating the parabola of the equation z ² = 2ρх about the axis z, where x is the horizontal coordinates of the parabola, ρ is the constant of the parabola, the base of the paraboloid is conjugated in the horizontal plane with the water outlets, forming E grating, the total area of the lattice openings accepted by the condition supplying a predetermined flow rate Q sprinkling water according to the equation Q = ωV, where ω - the total area of the apertures, V - expiration irrigation water speed, the upper edge of the lattice has a front chamfer formed by a parabola of the equation z ² = 2ρx, the upper edge of the cylindrical body has an inlet chamfer made at an angle of 45 °.

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