RU91807U1 - PNEUMATIC HYDRAULIC SPRAY OF PESTICIDES SOLUTIONS - Google Patents

Abstract

A pneumatic-hydraulic sprayer of pesticide solutions containing a cone-shaped air flow divider, a conduit-shaped air duct nozzle, a hydraulic line for supplying a pesticide solution and a liquid sprayer, characterized in that, in order to save energy consumption for dispersing the liquid, the device uses slotted sprayers, spray torch planes liquids of which form an acute angle with the bisector of the angle of the annular channel in the central sections of the diffuser and cone of the divider l

Description

The proposed utility model relates to methods and means of ensuring the quality of the process during the processing of field crops with pesticides and can be used as a pneumatic device for applying pesticide solutions to plants.

A device is known (A.S. No. 78406, published November 27, 2008 Bull. No. 33, class A01M 7/00), comprising a disk 1, a cone-shaped air flow divider and a duct pipe made in the form of a cone-shaped diffuser, the surface of which forms with surface divider annular nozzle. In this case, the bisector of the angle of the annular nozzle in the central sections of the diffuser and the cone of the divider forms an acute angle with the plane of the disk.

The technological process of applying pesticide solutions to objects treated with a pneumomechanical sprayer of pesticide solutions is as follows.

Air is supplied to a ring-shaped nozzle formed by a cone-shaped diffuser and a cone-shaped air flow divider, which, in turn, ensure the creation of a plane-shaped (in central sections of the device) air stream having a hollow cone shape.

A monodisperse droplet discharged from the periphery of the disk at a certain distance and at an angle to the direction of the jet is introduced into its side surface and, with increasing air velocity to the axis of the jet, is transported to the processing objects.

A device is also known (unit No. 2009106632/22 (008871) class A01M 7/00 class A01M 7/00), which reduces the total air flow and evenly distributes the air flow around the periphery while maintaining the profile of the flat jet nozzle to control the transfer process drops of pesticide to plants.

The device consists of a duct pipe in the form of a cone-shaped diffuser, an air flow divider, a disk and flat converging nozzles.

The technological process of applying pesticide solutions is as follows.

Air is supplied to the internal space of the device, formed by a cone-shaped diffuser and a cone-shaped air flow divider, and is distributed in equal shares over flat converging nozzles. Flat air jets with increasing distance from the nozzle naturally expand in the longitudinal and transverse directions.

Descending from the disk along a tangential path, drops of the pesticide solution are introduced into the side surface of the jets and transported by air to the objects to be treated.

The disadvantages of the known devices are: rotating sprayers of the road, difficult to manufacture and operate, energy intensive (15 kW for dispersing 1 ton of liquid). During mechanical atomization of a liquid, energy is expended on friction against a rapidly rotating working element of a disk.

The purpose of the utility model is to save the energy consumed by dispersing the liquid when moving the atomizer above the soil surface.

The drawing shows the design of a pneumohydraulic sprayer of pesticide solutions.

The proposed device consists of a duct in the form of a cone-shaped diffuser 1, a divider air stream 2, flat converging nozzles 3 and slotted nozzles 4.

The technological process of applying pesticide solutions to objects treated with a pneumohydraulic sprayer of pesticide solutions is as follows.

Air is supplied to the internal space of the device, formed by a cone-shaped diffuser 1 and a cone-shaped air flow divider 2, and is distributed in equal proportions along flat converging nozzles 3. Flat air jets naturally expand in the longitudinal and transverse directions with distance from the nozzle.

The nozzles 4 leaving the slot nozzles along the tangent path of the spray torch plane form an acute angle with the bisector of the angle of the annular channel in the central sections of the diffuser and the cone of the divider, and liquid droplets penetrate into the side surface of the jet and are transported by air to the objects to be processed.

At liquid operating pressures of 0.4 MPa or more, the angles of the spray pattern are in the range from 100 to 120 °, and the distribution of the number of drops across the width of the spray pattern is not uniform. Therefore, it is most expedient to use 4 sprays in the device, which ensure sufficient uniformity in the distribution of the number of drops along the periphery due to the overlap (overlap) of the liquid spray torches.

The advantage of the proposed design is that it allows to reduce the energy consumption for dispersing the liquid from 3.75 to 7.50 times in comparison with the known design. Pneumohydraulic sprayer is not difficult to manufacture, operate and relatively inexpensive.

Furthermore, the use of fluid atomizer design full set of types of nozzles 8 ^mi color codes slotted mode of operation and regulation of the fluid operating pressure of from 4 to 6 MPa broaden the possibility of its practical use in solving different problems with agronomic increase its seasonal operating time. The slotted sprayers of the proposed device are affordable, easy to use and are widely used in the application of pesticides in the interests of plant protection.

Claims (1)

A pneumatic-hydraulic sprayer of pesticide solutions containing a cone-shaped air flow divider, a conduit-shaped air duct nozzle, a hydraulic line for supplying a pesticide solution and a liquid sprayer, characterized in that, in order to save energy consumption for dispersing the liquid, the device uses slotted sprayers, spray torch planes liquids of which form an acute angle with the bisector of the angle of the annular channel in the central sections of the diffuser and cone of the divider l