The present model discloses a device introduced in droplet spraying tip, which provides for the control of flow, distribution and formation of spray droplets, within a size range considered as aerosols (<50 μm), specially aiming the control of current vector insects which transmit human disease epidemics and, manufactured for the assembly on powered backpack equipment for spraying/atomizing liquids, in such a way to allow the application in closed and difficult access areas, where motor vehicles are not able to arrive.

The present model features, in its inner part, in the central part of the nozzle, a constriction which, through low pressure, allows the suction of the liquid and the formation of droplets by disrupting the liquid surface tension in contact with the air stream.

DESCRIPTION OF THE PRIOR ART

In the current state of the art, several devices containing spray tips and nozzles are known.

The control of vector insects which transmit human diseases is a basic need in public health and, due to the possibility of epidemic outbursts of these insects, there must be control methods promptly available which allow a quick application, in an economic way and with elevated control efficacy.

The chemical control through the application of liquids delivered in the form of droplets is one of the most used methods for suppressing these insects. Within this method, the determination of the optimum size of the spray droplets and the use of equipment producing droplets within a narrow size range for the specific target will increment the biological efficacy of the pesticides, reduce the doses of the chemical products required and thus will minimize the environmental contamination.

Among the components of a spraying equipment, whether manual or powered, on land as well as aerial, the spraying tip is one of the main components, since they help in the determination of the outlet flow of the applied solution, are responsible for the way of delivery of the liquid and the size of droplets generated in the spraying process. There are different types of tips, and they are classified according to the main energy source utilized for the liquid spraying, which may be hydraulic, when the liquid is sprayed under pressure, or pneumatic, when the liquid is sprayed by action of a gas or steam, or even centrifugal, when the energy of a revolving mechanism is used, among others.

Currently a great variety of spraying tips which utilize the pneumatic method for generation of droplets is known, but few of them achieve them in the form of aerosols (<50 μm), due to design deficiencies, both in the dimensioning and in the adequate harmonization with the other components of a spraying equipment, such as for example, the fan or air blower, common in backpack sprayers, which must generate an adequate air flow for the formation of droplets.

The pneumatic backpack sprayers for use in public health in the control of epidemics of insects transmitting diseases (such as dengue, malaria and yellow fever), require application of insecticides in the form of aerosols, in ultra low volume (ULV) and low volume (LV), which makes the droplets keep in suspension for a determined period, so that the insects may get in contact and absorb such droplets, since larger droplets are not absorbed by these insects due to their minute size. So, droplets in the aerosol range size have a direct consequence on the biological efficacy of the application.

Several powered backpack sprayers can be found in the market, which utilize a compressor, fan, or spinning blowers, generating a gas or air stream for splitting a liquid in the form of droplets, released from the end of a discharge tube. Powered backpack sprayers throw sprays horizontally at distances of 9 to 12 meters and vertically at 6 to 9 meters, but the performance of individual machines vary, depending on the engine and fan size and, the design efficiency.

The spraying tip is a key point in the efficiency of this design, and a large number of the ones existing in the market present the deficiency of lacking an elevated homogeneity in the spectrum of droplet size, within the adequate range for spatial treatments, in the control of flying vectors (<50 μm). And the types of tips which feature this homogeneity, which are the sprayers of the revolving type (revolving discs), generally show a limited dispersion of droplets, thus interfering with the efficiency when trying to reach difficult access sites, such as for example, in constructions, a common situation in public health applications.

Other places of spraying are equally known by the current art. Normally, means are used for constricting the passage of air, for spraying a liquid, by air induction, aiming to reduce the spray drift, which is the action of the wind on the droplets. Many of these known mechanisms use droplets sized not less than 150 micra, differently from the object of the present model.

Other mechanisms use Venturi type nozzles, but for spraying the droplets of liquids such as crops protection products, insecticides, among others, they feature complex constructions, with a great number of components, channels, holes, of difficult access and maintenance.

OBJECT OF THE MODEL

For solving the inconveniences of the current art, the present model discloses a device introduced through a tip for spraying droplets, which innovates by providing an adequate spectrum of droplets for the control of vector insects and having an ample dispersion of the spray flow, as a consequence of its design, in which it utilizes a Venturi type structure, where the high-speed air flow inside a determined size tube reaches a reduced-size hole inside this tube. This passage constriction considerably elevates its speed, thus making the pressure be reduced at this point (low pressure zone) and providing the suction of the liquid to be sprayed (by placing an inlet for liquid above this low pressure area).

The falling of a liquid under low pressure on a high-speed air flow disrupts the liquid surface tension and, consequently, forms droplets of adequate dimension for spatial applications (<50 μm).

The spraying tip also presents the advantage of having a compact body, promptly adaptable to the discharge tube of the powered backpack equipment, for application of liquids of aqueous or oily formulations.

SUMMARY DESCRIPTION OF THE DRAWINGS

The object of the present model will be better characterized based on the attached figures, wherein:

FIG. 1 is a front view of the tip for spraying droplets in the present model;

FIG. 2 is a perspective view in longitudinal cut of the spraying tip in the present model.

DETAILED DESCRIPTION OF THE FIGURES AND MODEL

According to FIGS. 1 and 2, it is observed that the present model comprises a body (1), which has in its rear end (2) a circular main part (3), around which a clamp (4) is fastened, and the circular main part (3) adapts and couples to the air flow discharge tube of a sprayer such as a powered backpack equipment and the clamp (4) promotes the fixation to the body (1) at the discharge tube of the sprayer.

From the body (1), a cylindrical casing (5) projects vertically with the threaded upper end (6), and said casing (5) receives in its inner part a pad (7) with a central hole of a controlled diameter, through which the fluid to be applied by the sprayer nozzle runs off.

Said pad (7) remains retained and positioned in the inner part of the casing (5) by means of a pad holder (8), which can be screwed at the upper end (6) of said casing (5).

The set comprised of pad (7) and pad holder (8) configures a device for limiting flow, which enables the application of liquids as needed. This set is interchangeable and identified by colors according to the corresponding desired flow. Different flow values are achieved through the replacement of the set comprised of pad holder (8) and pad (7). This system has the advantage of the operator identifying the flow which is being applied by viewing the color of the pad holders (8).

From the casing (5) a second casing (9) projects horizontally, with a threaded inner part, said inner part which accommodates a filter (10), interchangeable, which may be of several types of mesh and which receives the fluid to be sprayed by the tip.

The body (1) of the nozzle has in its inner part, in the central region, a tip (11), of a geometry of the venturi type, configuring an area of constriction to the passage of the air flow, linked to the cylindrical casing (5).

The geometry of the tip (11) causes the increase in the speed of the air flow and the consequent reduction of the pressure, thus causing the suction of the liquid and the formation of droplets by disruption of the surface tension when the air stream is passed through said tip (11).

The tip (11) connects to a second low pressure chamber (12), where the subdivision into droplets in the pneumatic process occurs, by the impact of the liquid under low pressure with the high-speed air stream, thus causing its spraying and better efficiency in the formation of droplets with size smaller than 50 μm.

At the front end (13), the body (1) has a cast cylindrical extension (14), which acts as a protection to the tip and involves the second low pressure chamber (12). The aim of the extension (14) is to protect the tip against eventual shocks and impacts on its components.