RU173276U1 - SHORT-JET DEFLECTOR NOZZLE - Google Patents

Abstract

The proposed solution relates to irrigation equipment, in particular to devices for creating artificial rain, and can be used in sprinkler machines. A short-blast deflector nozzle of sectorial action, comprising a housing including a lower part with an external thread for screwing it into the nozzle of the water supply belt of the sprinkler, a longitudinal passage channel made in the form of an external cylindrical nozzle with a diameter of d = 4 ... 8 mm and a length l = (3 ... 4 ) ⋅d, radial holes with a diameter of d = 0.2⋅d, made at a distance l = (0.5 ... 1.0) ⋅dfrom the sharp edge of the inlet of the external cylindrical nozzle, and the upper part with a deflector integral with the body. At the same time, triangular grooves of variable depth h from 0 to 1.5 ... 2.0 mm are made on the working surface of the deflector with a step equal to the maximum depth of the groove on the deflector generatrix, located in the form of a fan, the body and deflector are made by molding and interconnected by a flat a platform with a length l = 10 mm and a width b = (2 ... 3) ⋅d, located under the outlet of the external cylindrical nozzle, and tides symmetrical and equidistant from the axis of the external cylindrical nozzle. In this case, the body is made in the form of a polyhedron, and the deflector is made in the form of a curved surface with a radius of R = 10⋅d, a width of b = (3 ... 5) ⋅d and a depth of h = 3.5 ... 5.0 mm, and is located at an angle α = 40 ... 60 ° relative to a flat platform, while the triangular grooves are made with a radius of R = 8⋅d and are arranged in the form of a fan with a girth angle ϕ = 155 ° ... 170 °, and the center of the fan is shifted towards the flat platform by a distance l = (1,5 ... 2.0) ⋅d. With this quality of plastic, for example, glass-filled polypropylene is used. This technical solution allows to reduce the metal consumption and cost of the product, as well as to increase the flight range to rain and rain capture area.

Description

The proposed solution relates to irrigation equipment, in particular to devices for creating artificial rain, and can be used in sprinkler machines.

To achieve, with minimal energy consumption, values of artificial rain quality indicators (intensity and structure of rain) close to agrotechnical requirements, and to reduce the energy of the action of rain drops on the soil, short-blast baffle nozzles operating at a pressure of 0.05 ... 0.15 MPa (Sprinkling machines / B.M. Lebedev. - 2nd ed., Revised and enlarged. - M.: "Mechanical Engineering", 1977. - 244 p., P. 23).

Known nozzle short-blast baffle circular action, mainly of metal and with certain design parameters, comprising a housing including a lower part with an internal thread for screwing it onto the nozzle of the watering belt of the sprinkler machine, a longitudinal passage channel, a diaphragm with a hole made integrally with the housing by casting and located between the lower and upper parts, and the upper part, made in the form of a funnel with windows. At the same time, in the upper part of the funnel, a bar with a cone-shaped deflector with an angle at an apex of 120 ° is strengthened, the axis of the cone coincides with the axis of the diaphragm, and the top of the cone is directed downward. Moreover, the distance from the upper plane of the diaphragm aperture to the top of the cone is equal to the diameter of the diaphragm aperture, and the diameter of the base of the cone is equal to two diameters of the aperture (Sprinkling machines / B.M. Lebedev. - 2nd edition, revised and additional - M .: “ Mechanical Engineering ”, 1977. - 244 p., Pp. 23-24, Fig. 7, a; Irrigation mechanization: Handbook / B. G. Shtepa, V. F. Nosenko, N. V. Vinnikova [and others]. - M.: Agropromizdat, 1990. - 336 s, p. 124, Fig. 3.1, a; DDA-100MA double-console sprinkler aggregate. Assembly and operation manual. - Kiev: Reklama Publishing House, 1970. - 68 s. ., pp. 13-14, Fig. 10).

The reasons that impede the achievement of a given technical result include the low manufacturability of the device due to the metal consumption and the complexity of its manufacture, as well as the high energy of the action of rain drops on the soil due to the size and specific gravity of the drops. A cone-shaped rain torch formed by a deflector in the form of a continuous film and with a downward flow is characterized by high intensity, low wind resistance, short range of droplets and the capture area.

Known nozzle short-blast deflector sector action, mainly made of metal and with certain design parameters, comprising a housing including a lower part with an internal thread for screwing it onto the nozzle of the watering belt of the sprinkler machine, a longitudinal passage channel and the upper part with a spoon-shaped deflector made integral with the housing and located at an angle of 30 ° ... 38 ° to the horizon (Handbook on the mechanization of irrigation / B.G. Shtepa, N.V. Vinnikova, S.Kh. Huseyn-zade [and others]; edited by B.G. Shtepa. - M: Kolos, 1979. - 303 p., P. 108, Fig. 27; Reclamation and water management. Irrigation: Reference book / P. A. Aidarov, K. P. Arent, V. N. Bass [et al.]; Ed. B. B. Shumakova. - M .: Kolos, 1999 .-- 432 p., P. 75, fig. 4.2).

The reasons that impede the achievement of a given technical result include the low manufacturability of the device due to the metal consumption and the complexity of its manufacture, as well as the high energy of the action of rain drops on the soil due to the size and specific gravity of the drops. A spoon-shaped rain torch formed by a deflector in the form of a continuous film is characterized by low wind resistance, short range of droplets and the capture area.

Known nozzle short-blast deflector sector action, mainly of plastic and with certain design parameters, made by injection molding, containing a multifaceted body, including a lower part with an external thread for screwing it into the nozzle of the water supply belt of the sprinkler machine, a longitudinal passage channel made in the form of a confuser, rolling into a cylindrical nozzle, and the upper part with a spoon-shaped deflector, made integral with the body. In this case, the deflector is made in the form of a two-blade crest surface, expanding with distance from the longitudinal passage channel. Moreover, the angle between the line of the deflector ridge and the plane passing through the area under the outlet is 20 ° ... 30 °, and the angle between the tangent to the plane of the final upper part of the deflector and the same plane passing through the area under the outlet is 40 ° ... 60 ° (Patent No. 2103865 of the Russian Federation, IPC A01G 25/02, B05B 1/04, B05B 1/18, B05B 1/26, A01M 7/00, publ. 02/10/1998).

The reasons that impede the achievement of a given technical result include the high energy of the action of raindrops on the soil due to the size and specific gravity of the droplets. A spoon-shaped rain torch, due to incomplete coverage of the deflector with a two-blade ridge surface, is first formed in the form of streams, and closer to the periphery of the deflector, closing, in the form of a continuous film. The rain torch in the form of a continuous film, as already noted, is characterized by low wind resistance, short range of droplets and the area of capture.

Known short-blast baffle nozzles of sectorial action, mainly of metal or plastic and with specific design parameters, made by casting, containing a multifaceted body, including a lower part with an external thread for screwing it into the nozzle of the water supply belt of the sprinkler machine, a longitudinal passage channel made in the form of a confuser turning into a cylindrical nozzle, and the upper part with a deflector made integral with the body. In this case, the deflector is made in the form of an ellipsoid surface with an internal recess and with a grip angle of 155 ° ... 160 ° (A.S. No. 1729603, IPC V05V 1/04, publ.: 04.30.1992; Mechanization of irrigation / D.M. Sandigursky, N.A. Bezrodnov. - 2nd ed., Revised and enlarged. - M .: Kolos, 1983. - 288 p., Pages 8-9, Fig. 2; DDA-100 V. two-sprinkler sprinkler for operation. - Volgograd: Publishing house "Reklama", 1997. - 87 p., p. 14-15, fig. 13, p. 82-83, DDA 01.263).

The reasons that impede the achievement of a given technical result include the high energy of the action of raindrops on the soil due to the size and specific gravity of the droplets. A spherical rain torch formed by a deflector in the form of a continuous film is characterized by low wind resistance, short droplet range and capture area.

The closest technical solution for the totality of features to the claimed device and adopted for the prototype is a nozzle short-blast deflector sector action, mainly made of metal and with certain design parameters, containing a housing that includes a lower part with an external thread for screwing it into the nozzle of the water supply belt of the sprinkler machine and multi-faceted a lock nut to fix it in the desired plane, a longitudinal passage channel made in the form of an external cylindrical nozzle, glad the holes and the upper part with a flat deflector made integral with the body and located at an angle of 30 ° relative to the axis of the longitudinal passage channel, while on the working surface of the deflector there are made triangular grooves of variable depth with a step equal to the maximum depth of the groove on the deflector generatrix, located in the form fans with an angle of 180 °, the center of the fan relative to the axis of the longitudinal passage channel is shifted in the direction opposite to the rain flare formed by a distance equal to the diameter of the longitudinal Khodnev channel (RF patent №2361681, IPC V05V 1/18, publ. 07/20/2009).

The reasons that impede the achievement of a given technical result include low manufacturability of the device due to the metal consumption and the complexity of its manufacture. The flat rain torch formed by the deflector in the form of streams due to the shape of the deflector and pressure losses in the direction opposite to the jet outflow is characterized by a short flight range of the droplets and the capture area.

The task to which the proposed technical solution is directed is to increase the manufacturability of the device and improve the quality indicators of artificial rain.

The result of the proposed technical solution is to reduce the metal consumption and cost of the product, as well as increasing the range of the flight of rain drops and the area of capture by rain.

The technical result is achieved in that the nozzle is a short-blast deflector sector action, comprising a housing including a lower part with an external thread for screwing it into the nozzle of the water supply belt of the sprinkler machine, a longitudinal passage channel made in the form of an external cylindrical nozzle with a diameter of d ₁ = 4 ... 8 mm and length l ₁ = (3 ... 4) ⋅d ₁ , radial holes with a diameter d ₂ = 0,2⋅d ₁ made at a distance l ₂ = (0,5 ... 1,0) ⋅d ₁ from the sharp edge of the inlet external cylindrical nozzle, and the upper part with a deflector made integral with the body, while on the working surface of the deflector there are triangular grooves of variable depth h ₁ from 0 to 1.5 ... 2.0 mm with a step equal to the maximum depth of the groove on the deflector generatrix, located in the form of a fan, and the body and deflector manufactured by injection molding and are interconnected by a flat pad length l ₃ = 10 mm and the width b ₁ = (2 ... 3) ⋅d ₁ beneath the outlet nozzle and the outer cylindrical symmetric and equidistant from the axis in cylindrical external tides nozzle, wherein the housing is configured as a polyhedron, and the deflector is formed as a curved surface of radius R ₁ = 10⋅d _1, the width b ₂ = (3 ... 5) ⋅d ₁ and depth h ₂ = 3.5 ... 5 0 mm and is located at an angle α = 40 ... 60 ° relative to a flat platform, while the triangular grooves are made with a radius of R ₂ = 8⋅d ₁ and are arranged in the form of a fan with a girth angle ϕ = 155 ° ... 170 °, and the center of the fan is shifted to side of a flat platform at a distance l ₄ = (1.5 ... 2.0) ⋅d ₁ .

Moreover, for example, glass-filled polypropylene is used as plastic.

The manufacture of a housing made of plastic, for example glass-filled polypropylene, by means of injection molding in the form of a polyhedron helps to reduce the metal consumption and cost of the product, simplifies the installation of the nozzle in the nozzle of the water supply belt of the sprinkler.

The irrigation process from the position of elementary components is described by the effect of a raindrop on the soil aggregate. This effect is characterized mainly by the force or energy of the impact, which mathematically for a drop can be represented in the form (Sprinkling machines / B.M. Lebedev. - 2nd ed., Revised and enlarged. - M.: "Mechanical Engineering", 1977. - 244 p. - p. 89):

where ρ _to = γ _to / g is the density of the drop, kg / m ³ ;

γ _to - the specific gravity of the drop, N / m ³ ;

g = 9.81 - acceleration of gravity, m / s ² ;

ϑ _k is the droplet velocity in air, m / s.

From formula (1) it follows that the main variables can be the density and velocity of the droplet.

не превысят силы внутреннего давления в капле р_к=4α_к/d_к (см. там же - стр. 79):From the theory of decay of jets, it is known that a water drop moving in air will be stable as long as external forces from air pressure

the internal pressure forces in the drop will not exceed p _k = 4α _k / d _k (see ibid. - p. 79):

where α _to - the coefficient of surface tension of the drop, N / m;

ρ _in = γ _in / g is the density of air, kg / m ³ ;

γ _in - specific gravity of air, N / m ³ ;

C _x - aerodynamic drag coefficient of air;

d _to - droplet diameter, m

силе сопротивления воздуха

(см. там же - стр. 79):The velocity of the droplet can also be determined from the condition of equality of its weight

air resistance

(see ibid. - p. 79):

From the expressions (2) and (3) after the transformations we get:

Thus, in order to reduce the energy of the drop effect on the soil, in accordance with formula (1), it is necessary to reduce the density of the drop and its speed. The latter according to equations (2) ... (4) is possible by reducing the diameter of the droplet or the density and / or surface tension of the droplet.

A decrease in the indicated characteristics of a raindrop is achieved when it is saturated with gas (air), i.e. creating a gas-liquid mixture.

Table 1 shows the surface tension coefficient of tap water before and after air saturation. According to these data, by dispersing air into water, it is possible to reduce the coefficient of its surface tension to 8-9% (Change in the surface tension of water under the influence of various physical factors / N.A. Mamedov, G.I. Garibov, Sh. Sh. Alekberov [and etc.] // Applied Physics. - 2016. - No. 6. - P. 20-23).

The density of the gas-liquid mixture in accordance with the formulas:

where ρ _W , ρ _g - the density of the liquid and gas, kg / m ³ ;

V _GF is the volume of the gas-liquid mixture filling the apparatus, m ³ ;

V _g - the volume of gas enclosed in a volume of V _GM , m ³ ,

decreases with increasing gas volume in the gas-liquid mixture volume (New reference book of a chemist and technologist. Processes and devices of chemical technologies. Part I - St. Petersburg: ANO NPO Professional, 2004. - 848 p. - p. 514).

Table 2 shows the results of calculating the density of the gas-liquid mixture at a temperature of 20 ° C (water density 998.2 kg / m ³ , air density 1.2041 kg / m ³ ).

It is known that when a fluid moves inside a cylindrical nozzle having a sharp inlet edge, a compressed section is formed. A vacuum is observed in the compressed section, the maximum value of which reaches 0.75 ... 0.8 of the pressure in front of the nozzle. The formation of vacuum leads to an increase in the difference in pressure and, accordingly, in the speed in the compressed section of the jet. This explains the greater, with equal pressure, fluid flow flowing from the nozzle, despite the fact that the hole in the thin wall has the same diameter (Handbook of hydraulic calculations / P.G. Kiselev, A.D. Altshul, N.V. Danilchenko [et al.]; Under the editorship of P.G. Kiselev. - Ed. 4th, revised and revised - M.: Energia, 1972. - 312 pp. - p. 54).

The connection of the compressed section of the nozzle with the atmosphere will allow air to be sucked into the nozzles without any additional energy consumption and thereby form a gas-liquid mixture. Given that the jet expires into the atmosphere by limiting the working pressure in front of the nozzle to 1.0 MPa, it can be guaranteed that the nozzle will work in its full cross section and there will be no vacuum breakdown.

The parameters of the short-jet deflector nozzle are determined by the following:

1) the diameter d ₁ = 4 ... 8 mm and the length l ₁ = (3 ... 4) ⋅ d _{1 of the} external cylindrical nozzle are taken according to the results of experience in designing rain-forming devices;

2) the diameter of the radial holes d ₂ = 0,2⋅d ₁ adopted by the condition that their total cross-sectional area should be less than the difference squares of the nozzle diameter and the jet of compressed cross section (S _holes <S _JV -S _SJ);

3) the distance from the sharp edge of the inlet of the external cylindrical nozzle to the radial holes l ₂ = (0.5 ... 1.5) ⋅d ₁ - the distance at which there is a region with maximum vacuum (the outflow of liquid through the nozzles into the media with back pressure / B .N. Siov. - M., Mechanical Engineering, 1968. - P. 140. - p. 54.);

4) the grooves of a triangular shape with a depth of h ₁ from 0 to 1.5 ... 2.0 mm with a pitch of ≈2 mm for nozzles with a fixed deflector ensure the formation of compact streams and optimal values of the true intensity, flight range, size, uniformity of distribution over the irrigated area and wind resistance of rain drops (quality indicators of artificial rain);

5) a deflector in the form of a curved surface with structurally selected parameters - radius R ₁ = 10⋅d ₁ width b ₂ = (3 ... 5) ⋅d ₁ and depth h ₂ = 3.5 ... 5.0 mm, with a circumference ϕ = 155 ° ... 170 ° and with a displaced center, located at an angle α = 40 ... 60 ° relative to a flat platform due to a spoon-shaped torch of rain and the absence of pressure loss when the jet emerges, it provides the lowest energy consumption for crushing the jet, the largest range of droplets and rain capture area .

6) a flat platform located under the outlet of the external cylindrical nozzle, with structurally selected parameters - length l ₃ = 10 mm and width b ₁ = (2 ... 3) ⋅d ₁ , and tides symmetrical and equidistant from the axis of the external cylindrical nozzle provide the necessary product strength.

Table 3 shows the size range of a unified short-jet deflector nozzle designed for low-pressure sprinkler machines with a pressure in front of the nozzle from 0.05 to 0.15 MPa and, accordingly, on a hydrant of 0.35 ... 0.40 MPa (35 ... 40 m )

* The size is selected based on the strength of the seat.

** Size selected constructively.

These nozzles can be used on drum-type irrigation systems with consoles (for example, DShF 90 Agros, DShF 110 Agros), on wide-head low-pressure machines (for example, Fregat-N, EDM Kuban-L, “ Kuban-LK "), on small-sized machines based on, for example," Kuban "," Frigate ".

In the drawings: in FIG. 1 shows a side view of the nozzle; in FIG. 2 - top view of the nozzle; in FIG. 3 - section AA; in FIG. 4 - section BB.

The short-blast deflector sector-style nozzle comprises a housing including a lower part with an external thread, a longitudinal passage channel made in the form of an external cylindrical nozzle 1, radial holes 2, a sharp edge of the inlet 3 of the external cylindrical nozzle 1, and an upper part with a deflector 4, on the working surface which made triangular grooves 5. The housing and the deflector 4 are interconnected by a flat platform 6 and tides 7.

The nozzle short-blast deflector operates as follows. The water flow under pressure of 0.05 ... 0.15 MPa, moving along the water supply belt of the sprinkler, enters the outer cylindrical nozzle 1. Since the edge of the inlet 3 of the outer cylindrical nozzle 1 is sharp, when it enters it, the water jet slowly narrows, tears off from the walls and creates a rarefaction zone. The space between the water stream and the walls of the external cylindrical nozzle 1 in the discharge zone is also filled with water in a rotational vortex motion at a pressure below atmospheric. Through radial openings 2 connecting the rarefaction zone of the external cylindrical nozzle 1 with the atmosphere, air is sucked in, which is intensively dispersed into water, thereby forming a water-air mixture. After that, the jet of water-air mixture gradually expands and fills the entire cross section of the external cylindrical nozzle 1 at the outlet. Next, the jet of water-air mixture in the upper part of the body hits the deflector 4, made in the form of a curved surface and with triangular grooves 5. The stream of the air-water mixture, breaking on the deflector 4, forms a spoon-shaped torch in separate streams. With further movement in the air, water-air streams in a certain section of the path maintain continuity, but then disintegrate and continue to move in the form of drops. The strength of the product is ensured by a flat platform 6 located under the outlet of the external cylindrical nozzle 1, and tides 7 symmetrical and equidistant from the axis of the external cylindrical nozzle 1.

Thus, improving the manufacturability of the device and improving the quality indicators of artificial rain is achieved by manufacturing the body and the deflector by means of compression molding, connecting them together with a flat platform with a length l ₃ = 10 mm and a width b ₁ = (2 ... 3) ⋅d ₁ located under the outlet of the external cylindrical nozzle, and tides symmetrical and equidistant from the axis of the external cylindrical nozzle. The housing is made in the form of a polyhedron, and the deflector is made in the form of a curved surface with a radius of R ₁ = 10⋅d ₁ , a width of b ₂ = (3 ... 5) ⋅d ₁ and a depth of h ₂ = 3.5 ... 5.0 mm and is located at an angle α = 40 ... 60 ° relative to a flat platform, while the triangular grooves are made with a radius of R ₂ = 8⋅d ₁ and are arranged in the form of a fan with a girth angle ϕ = 155 ° ... 170 °, and the center of the fan is shifted towards the flat platform at a distance l ₄ = (1.5 ... 2.0) ⋅d ₁ .

This technical solution allows to reduce the metal consumption and the cost of the product, as well as to increase the flight range of the raindrops and the area of capture by rain.

Claims (2)

1. A short-blast baffle nozzle comprising a body including a lower part with an external thread for screwing it into the nozzle of the water supply belt of the sprinkler machine, a longitudinal passage channel made in the form of an external cylindrical nozzle with a diameter of d ₁ = 4 ... 8 mm and a length of l ₁ = (3 ... 4) · d ₁ , radial holes with a diameter of d ₂ = 0.2 · d ₁ , made at a distance l ₂ = (0.5 ... 1.0) · d ₁ from the sharp edge of the inlet of the external cylindrical nozzle, and the upper part with a deflector made integral with the body, while on the working surface reflector made triangular grooves of variable depth h ₁ from 0 to 1.5 ... 2.0 mm with a step equal to the maximum depth of the groove on the deflector generatrix, located in the form of a fan, characterized in that the body and deflector are made by molding and interconnected flat pad length l ₃ = 10 mm and the width b ₁ = (2 ... 3) · d _1, situated below the outlet opening of the external cylindrical nozzle, and symmetrical and equidistant from the axis of the outer cylindrical nozzle tides, wherein the housing is formed as a multifaceted ka, and the deflector is formed as a curved surface of radius R = ₁ 10 · d _1, the width b ₂ = (3 ... 5) · d ₁ and the depth h ₂ = 3.5 ... 5.0 mm, and is at an angle α = 40 ... 60 ° relative to a flat platform, while the triangular grooves are made with a radius of R ₂ = 8 · d ₁ and are arranged in the form of a fan with a girth angle ϕ = 155 ° ... 170 °, and the center of the fan is shifted towards the flat platform by a distance l ₄ = ( 1.5 ... 2.0) d ₁ . 2. The short-blast baffle nozzle according to claim 1, characterized in that, for example, glass-filled polypropylene is used as plastic.

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