RU2756646C1 - Foam pesticide sprayer - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: sprayer for applying pesticides in the form of foam contains a housing with a cylindrical shoulder for fastening, channels for supplying air and working fluid, a hollow chamber for a working fluid with a cover, a mixing chamber, a foaming element, a deflector. The hollow chamber is made along the generatrix of the atomizer body and is connected by radial channels with the mixing chamber, and the axes of the radial channels intersect at one point on the longitudinal line of the body. The inlet channel is made in the form of a truncated elliptical hollow cone, connected by a smaller base with the inlet of the mixing chamber, made in the form of a hollow elliptical cylinder, connected by the outlet with a foaming element made in the form of a truncated elliptical cone and filled with a material with a porous structure. The deflector is made in the form of a part of the surface of the ellipsoid of revolution.

EFFECT: proposed sprayer for applying pesticides in the form of foam provides a uniform supply of working fluid into the mixing chamber, obtaining monodisperse fine-mesh foam with high stability, preventing the loss of pesticides, reducing the risk of environmental pollution by pesticides.

1 cl, 4 dwg

Description

The invention relates to agriculture, in particular, to devices for treating agricultural crops with working fluids of pesticides in the form of foam.

A known method of applying pesticides, including the use of working solutions of chemical preparations in the form of foam structures with a given ratio of pesticide in a solution of a foaming agent, providing a high degree of density of plant leaves, uniform distribution of the working solution over the treated surface, increasing the effectiveness of pesticides with a decrease in the application rate, reducing the impact of external factors on the quality of processing and pesticide pollution of the environment (patent KZ 26988, IPC А01С 23/00, 2013).

Known injection spray, including a housing, a spray nozzle in the form of a confuser, an ejection nozzle, a deflector for converting the output cylindrical jet of liquid into a flat spray torch, while, to increase the area of coverage of the leaf surface of plants and keep the pesticide on it, a foaming agent of a given concentration is introduced into the working fluid (AS USSR No. 654296, B05B 1/04, A01M 7/00, 1975).

The disadvantage of this sprayer is an insufficient level of foaming with a low level of foam expansion, a significant loss of jet energy when it hits the flat surface of the deflector and, due to the shock conversion of the kinetic energy of the jet stream into potential pressure energy on the flat deflector, an uneven distribution of the working fluid over the width of the spray pattern and as a result, uneven treatment of crops with pesticides.

Known spray nozzle for mixing liquids and gases, containing a housing, opposite channels for liquid and air, made coaxially in the housing, a deflector, the bottom of which connects the channels (US patent No. 3675855, cl. 239-59, July, 11, 1972). When a surfactant is introduced into the liquid at the outlet of the nozzles, the working liquid receives a foamed structure when the liquid and gas jets collide. The disadvantage of this device is the unproductive energy losses of the liquid and gas flows as a result of the collision of the jets, which affects the uniformity of the liquid distribution when leaving the deflector, and when the foaming agent is introduced into the liquid, the foam rate is low.

The technical objective of the invention is to increase the effectiveness of pesticides, reduce their application rates, prevent the loss of pesticides, reduce the risks of environmental pollution by pesticides by creating a spray for pesticides in the form of foam.

The posed technical problem is achieved by the fact that a pesticide sprayer in the form of foam, comprising a body with a cylindrical shoulder for fastening, channels for supplying air and working fluid, a hollow chamber for a working fluid with a lid, a mixing chamber, a foaming element, a deflector; According to the invention, the hollow chamber for the working fluid is made along the generatrix of the elliptical cylinder of the atomizer body and is connected by radial channels with the mixing chamber, and the axes of the radial channels intersect at one point on the longitudinal axis of the elliptical cylinder of the body, the inlet channel is preferably made in the form of a truncated elliptical hollow cone connected a smaller base with an inlet of the mixing chamber, and the mixing chamber is made in the form of a hollow elliptical cylinder connected to the outlet with a foam-forming element, while the foam-forming element is made in the form of a truncated elliptical cone filled with a material with a porous structure, with open communicating pore-channels throughout the volume of the porous material, and the axes of the large bases of the elliptical cones of the inlet channel, the foam-forming element and the axes of the bases of the elliptical cylinder of the mixing chamber are perpendicular to the longitudinal axis of the elliptical cylinder of the body and lie in about bottom plane with longitudinal and transverse axes of the elliptical cylinder of the body; the deflector is made in the form of a part of the surface of an ellipsoid of revolution with a long axis perpendicular to the vertical plane passing along the longitudinal axis of the elliptical cylinder of the body, the minor axis parallel to the longitudinal axis, the vertical axis normal to the longitudinal axis of the elliptical cylinder of the body and coinciding with the minor axis of the outlet of the foam-forming element ...

The invention is illustrated by drawings.

FIG. 1 is a side view, a spray in a longitudinal section; in fig. 2 - the same, bottom view A in section C-C in FIG. 1; in fig. 3 - the same, cross section B-B in Fig. 1; in fig. 4 is the same, cross section D-D in FIG. 1.

The sprayer contains a housing 1 with a cylindrical collar for fastening 2, a channel 3 for air supply, a channel 4 for supplying a working fluid, a hollow chamber 5 for a working fluid with a cover 6, a mixing chamber 7, a foaming element 8, a deflector 9.

The body 1 is made in the form of an elliptical cylinder with a longitudinal axis n-n and a transverse axis s-s. The hollow chamber 5 for the working fluid is made along the generatrix of the elliptical cylinder of the housing 1 and is connected by radial channels 10 with the mixing chamber 7, and the axes aa, bb, cc, dd of the radial channels 10 intersect at one point P on the longitudinal axis nn of the elliptical cylinder of the housing 1. Input channel 3 in the form of a truncated elliptical hollow cone 11, connected by a smaller base with the inlet 12 of the mixing chamber 7, made in the form of a hollow elliptical cylinder 13, connected by the outlet 14 with the foaming element 8. The foaming element 8 is made in the form of a truncated elliptical cone 15 filled with material with a porous structure with open communicating pore-channels in the entire volume of the porous material, and the axes mm, kk, the large bases of the elliptical cones 11, 15 of the inlet channel 3 and the foaming element and the axis ll of the bases of the elliptical cylinder 13 of the mixing chamber are perpendicular to the longitudinal axis nn of the elliptical cylinder buildings 1 and lie in the same plane with the longitudinal n-n and transverse s-s axes of the elliptical cylinder of body 1.

The deflector 9 is made in the form of a part of the surface of an ellipsoid of revolution 16 with a long axis xx, perpendicular to the vertical plane passing along the longitudinal axis nn of the elliptical cylinder of the body 1, the minor axis yy, parallel to the longitudinal axis nn, the vertical axis zz, normal to the longitudinal axis nn and coinciding with the small axis rr of the outlet 17 of the foaming element 8.

The proposed shape of the deflector 9 provides a smooth transformation of the foam flow into a wide flat flame with minimal dissipation of the flow energy, which increases the working width of the spray gun and reduces the energy consumption for foaming.

The execution of the hollow chamber 5 for the working fluid along the generatrix of the elliptical cylinder of the housing 1 and the connection of the chamber 5 by the radial channels 10 with the mixing chamber 7 provides a symmetrical and uniform supply of the working fluid to the mixing chamber 5.

The execution of the inlet channel 3, preferably in the form of a truncated elliptical hollow cone, allows, on the one hand, to provide interface with the mixing chamber 7, made in the form of an elliptical cylinder, on the other hand, to increase the air flow rate at the entrance to the mixing chamber 7, and, as a consequence, kinetic energy of the air flow for injection of the working foaming liquid from the channels 10.

The implementation of the foaming element 8 in the atomizer in the form of a truncated elliptical cone 15 makes it possible to obtain a deliberately wide layer of the formed foam at the outlet 17 of the foaming element 8.

The implementation of the foaming element 8 in the form of a porous material provides a monodisperse fine-cellular foam with a high stability (stability) of the foam over time. The pore size of the porous material determines the dispersion of the foam. In this case, the porous material can be either a solid body or made of a wire previously twisted into a spiral, and then entangled and compressed (RU patent No. 2442664, IPC A01M 7/00, 2010).

The sprayer works as follows.

From the air supply source of the mobile sprayer (not shown), air at a given pressure is supplied to channel 3 and then to the mixing chamber 7. Simultaneously, from the pumping unit and the distribution manifold of the mobile sprayer (not shown), the working foaming liquid of the pesticide with a given concentration of the foaming agent enters channel 4 and fills the annular chamber 5. From the annular chamber 5 through the radial channels 10, the working fluid enters the mixing chamber 7, irrigates its cavity, providing a uniform distribution of the working fluid inside the cavity in a plane normal to the longitudinal axis nn. In chamber 7, the pesticide foaming liquid is mixed with air to form a gas-liquid mixture. From the chamber 7, the gas-liquid flow enters the porous element 8, where additional interaction of gas and liquid occurs, through which foam is formed at the outlet 17 of the porous element 8. The resulting foam, by means of the deflector 9, is converted into a wide V-shaped torch and applied to the plants, covers, for example, row crops during belt processing.

This sprayer combines the functions of a foam generator and a device for applying the pesticide working fluid in the form of foam.

The use of this sprayer provides an increase in the effectiveness of pesticides, a decrease in their application rates, prevention of pesticide losses, and a decrease in the risks of environmental pollution with pesticides.

Claims (1)

A sprayer for applying pesticides in the form of foam, containing a body with a cylindrical shoulder for fastening, channels for supplying air and working fluid, a hollow chamber for a working fluid with a cover, a mixing chamber, a foaming element and a deflector, characterized in that the hollow chamber for a working fluid is made along the generatrix of the elliptical cylinder of the atomizer body and is connected by radial channels with the mixing chamber with the axes of the radial channels intersecting at one point on the longitudinal axis of the elliptical cylinder of the body, the inlet channel is made in the form of a truncated elliptical hollow cone connected by a smaller base to the inlet of the mixing chamber, and the chamber mixing is made in the form of a hollow elliptical cylinder connected with an outlet opening with a foam-forming element, while the foam-forming element is made in the form of a truncated elliptical cone filled with a material with a porous structure with open communicating pore-channels in the entire volume of the porous material, and the axes of the large bases of the elliptical cones of the inlet channel of the foaming element and the axes of the bases of the elliptical cylinder of the mixing chamber are perpendicular to the longitudinal axis of the elliptical cylinder of the housing and are located in the same plane with the longitudinal and transverse axes of the elliptical cylinder of the housing, the deflector is made as a part of the surface of the ellipsoid of revolution with a long axis , perpendicular to the vertical plane passing along the longitudinal axis of the elliptical cylinder of the body, the minor axis parallel to the longitudinal axis, the vertical axis normal to the longitudinal axis of the elliptical cylinder of the body and coinciding with the minor axis of the outlet of the foaming element.

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