RU204289U1 - Liquid Injection Sprayer - Google Patents

Abstract

The utility model relates to agricultural engineering, mainly to devices for spraying working fluids of pesticides against pests, diseases and weeds, as well as for humidifying the air in cultivation structures of protected soil in agriculture and forestry. The technical result is to increase the efficiency of the sprayer by ensuring uniformity The technical result is achieved by the fact that a spring-loaded spiral is installed in the mixing chamber of the air and liquid of the injection nozzle, which is fixed in the nozzle body by an injector in the spacer of the chamber walls.

Description

The utility model relates to agricultural engineering, mainly to devices for spraying working fluids of pesticides against pests, diseases and weeds, as well as for humidifying the air in cultivation structures of protected soil in agriculture and forestry.

Known injection flat-spray slot sprayers of working liquids of pesticides in the spray spectrum, which mainly contain large and medium droplets, the proportion of small droplets is much less, no more than 0.6% of the volume of the sprayed liquid, than standard slot nozzles. In these nozzles, the working fluid enters the injector through a calibration hole, the diameter of which determines the flow rate of the sprayer. The injector installed in the atomizer has radially located holes in the region of the narrowest section of the channel. The liquid, passing in the zone of this section at high speed, creates a vacuum, which causes air from the environment to be sucked in through two channels in the nozzle body. The diameter of the injector channel gradually increases and the liquid in it mixes with air and enters the atomizer body in the form of low expansion foam. At the exit from the slotted nozzle, we have larger droplets containing a small amount of air. The main disadvantage of these nozzles is that they have a large number of large droplets in the spray spectrum, which have a size of more than 350 microns and flow down from the treated surface or are crushed upon impact with the treated surface. All this leads to unproductive losses of the drug into the environment and, first of all, to the soil (D. Shpaar, G. Bartels, W. Burt, T. Wetzel et al. Plant Protection in Sustainable Land Use Systems, Volume 4, Minsk, 2004, pp. . 105-106). This sprayer, as the closest in terms of the set of essential features to the proposed one, is taken by the authors as a prototype.

Thus, the current problem is the lack of liquid sprayers for use in agriculture, which ensure uniform spray of pesticide working fluids against pests, diseases and weeds, as well as for humidifying the air in cultivation facilities in protected soil in agriculture and forestry. The objective of the invention is to provide such a spray of working fluid, which would provide an increase in the degree of uniformity of the spray by reducing the proportion and reducing the size of large and medium droplets in the spray spectrum.

The technical result is to increase the efficiency of the sprayer by ensuring the uniformity of the spray of the working fluid.

The technical result is achieved by the fact that a spring-loaded spiral is installed in the chamber for mixing air and liquid of the injection sprayer, which is fixed in the sprayer housing by the injector in the spacer.

FIG. 1 shows a liquid sprayer, general view.

The liquid atomizer consists of a body 1, an injector 2, a slotted nozzle 3, a spring-loaded spiral 4, a channel 5, a chamber 6, and holes 7.

The liquid sprayer works as follows.

The working fluid by pressure through channel 5 in injector 2 enters chamber 6 of the nozzle body 1. In the nozzle body 1 there are two symmetrically located elongated holes 7 through which air is sucked into the injector through two cylindrical holes in the upper part of the injector into the cylindrical channel of the injector, along to which the fluid moves.

Due to the increase in the diameter of the channel along the length of the injector, the liquid in it is mixed with air and enters the chamber 6 of the atomizer body in the form of low expansion foam. The introduction of a spring-loaded spiral into the chamber of the atomizer body promotes better additional mixing of the working fluid with the sucked in air, which leads to the formation of droplets more uniform in size in the spray spectrum when flowing out from the nozzle due to a decrease in the diameter of large droplets by 20% and an increase in the number of droplets with an average size. This provides an increase in the quality of the application of working fluids on the surface to be treated and a decrease in non-productive losses due to the rolling of large drops from the sheet surface.

References

1. D. Shpaar, G. Bartels, W. Burt, T. Wetzel et al. Plant Protection in Sustainable Land Use Systems, Volume 4, Minsk, 2004, pp. 105-106;

2. Lechler GmbH. Prospect R 2018, Sprayers and accessories for agriculture.

Claims (1)

Injection liquid atomizer, including a housing with two symmetric holes for air suction, a mixing chamber and a slotted nozzle, an injector for supplying liquid to the mixing chamber, characterized in that a spring-loaded spiral is installed in the spacer of the chamber walls in front of the slotted nozzle in the mixing chamber.

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