UA130344U - FAN SPRAYER - Google Patents

Abstract

The fan sprayer comprises a sprayer housing with an electric motor, a fan, a spray element and a tube for supplying working fluid. The sprayer housing is made in the form of a Venturi nozzle. The spray element is made in the form of a solid hollow cut cone with a removable mesh cylindrical insert on the top and a hemispherical removable mesh lid on it. The tube for supplying the working fluid passes through the hollow shaft of the motor.

Description

The useful model belongs to agricultural engineering, namely to special devices for chemical treatment of plants.

As the closest analogue, a well-known fan atomizer was chosen, which includes the atomizer body with an electric motor placed in it, a fan, an atomizing element and a tube for supplying the working fluid (Patent KO Mo 2574678 А 01М 7/00, publ. 02.10.2016).

The disadvantage of this well-known device is the low efficiency of chemical treatment of plants, the unsatisfactory quality of uniformity of spraying and the instability of the density of the distribution of drops on the treated surface.

The basis of the useful model is the task of improving the fan sprayer by introducing new structural elements into the system, which allow to increase the quality and efficiency of chemical treatment of plants, and reduce the loss of chemicals.

The task is solved by the fact that in the fan atomizer, which includes the atomizer body with an electric motor placed in it, the fan, the atomizing element and the tube for supplying the working fluid, according to the proposed useful model, the atomizer body is made in the form of a Venturi nozzle, the atomizing element, made in the form of a solid hollow truncated cone with a mesh replaceable cylindrical insert on the top and a hemispherical replaceable mesh cover on it, the tube for the supply of the working fluid passes through the hollow shaft of the electric motor.

The use of a fan sprayer of the proposed design makes it possible to improve the quality and efficiency of chemical treatment of plants, reduce the loss of chemicals due to the fact that the sprayer body is made in the form of a Venturi nozzle, The spraying element is made in the form of a continuous hollow truncated cone with a variable mesh cylindrical insert on the top part and a hemispherical variable mesh cover on it, the tube for supplying the working fluid passes through the hollow shaft of the electric motor. When the fan rotates, air enters the suction pipe, then air enters the narrowed part of the atomizer body made in the form of a Venturi nozzle, where a mesh cylindrical insert is placed on the upper part of the cone of the atomizing element and a hemispherical mesh cover on it, between these elements and the narrowed part of the nozzle

From the Venturi, a zone of reduced pressure is formed and drops of the working solution in the form of equal-sized drops, the diameter of which is determined by the size of the mesh holes, pass through them and fall into the air stream created by the fan. Drops of the same size, picked up by the turbulent air flow, create a spatial-volumetric aerosol fog-like effect on plants due to the long-term suspension of the drops in the air and comprehensive penetration of the drugs into the plants. This significantly reduces the consumption of the working fluid, as well as its penetration through the crowns of plants, losses from its evaporation are reduced due to condensation on the surface of the leaves and branches of the plant during its cooling, the drop of chemical drops that inevitably occurs with traditional spraying methods is reduced, and the quality of plant treatment is also improved and, in particular, the leaves due to the formation of a vortex-like movement of chemicals.

The essence of the useful model is explained by the drawing, which shows the scheme of the proposed fan atomizer.

The fan atomizer includes: the body 1 of the atomizer with the electric motor 2 placed in it, the fan C and the atomizing element 4, which is made in the form of a solid hollow truncated cone with a replaceable mesh cylindrical insert on the upper part and a hemispherical replaceable mesh cover 6 on it, a tube 5 for supplying the working fluid passes through the hollow shaft of the electric motor 2, the atomizer body 1 is made in the form of a Venturi nozzle.

The device works like this.

Working fluid from a tank with a pump (not shown) under pressure enters through the working fluid supply tube 5, which passes through the hollow shaft of the electric motor 2, to the atomizing element 4 and enters the inner surface of a solid hollow truncated cone with a variable mesh cylindrical insert at the top and a hemispherical variable mesh cover 6 on it, where under the action of centrifugal forces the liquid in the form of a thin film moves from the inlet to the outlet of the conical part and falls on the variable mesh cylindrical insert on the upper part of the cone and on the hemispherical variable mesh cover 6 on it. When the fan C rotates, air enters the suction pipe, then the air enters the narrowed part of the body 1 of the atomizer made in the form of a nozzle

Venturi, where a mesh cylindrical insert is placed on the upper part of the cone of the spray element 4 and a hemispherical mesh cover b on it. Between these elements and the narrowed part of the Venturi nozzle, a zone of reduced pressure is formed and drops of the working solution in the form of equal-sized drops, the diameter of which is determined by the size of the mesh holes, pass through them and enter the air flow created by fan C and directed to the plants.

Claims (1)

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