"VERTICAL AIR CONVEYOR FOR AGRICULTURAL SPRAYER

MACHINES"

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This patent for an industrial invention proposes an s air distributor bar applicable to sprayers, that is to say, to those devices used for nebulizing substances of various kinds on crops, fields, fruit trees and for other farming applications.

The device according to the invention can be fitted o to agricultural implements used for applying crop treatment substances, typically fungicides and other pesticide solutions. The characteristic novel feature of the device is that it enables long distance application of the substance with a controlled and constant spray of s uniformly distributed intensity.

In short, the device according to the invention nebulizes the aqueous chemical solution in a perfectly balanced outflow of air that creates a smooth flow perpendicularly to the axis of the bar. ₀ The device according to the invention relates to the field of agricultural machinery, and in particular, to nebulizing devices or sprayers.

It is known that sprayers used in agricultural applications are equipped with fans that create an air S flow enabling a predetermined quantity of nebulized liquid substance to be distributed on rows of plantations, orchards or other crop fields.

At present, for distributing flows of a nebulized fungicidal substance, an air spraying apparatus is used o which is equipped with a distribution element, usually vertical, especially designed to spread the substance while the tractor the distributor is mounted on moves

alongside the rows of crop plants.

The distribution element, as currently made, consists of an elongated vertical hollow body with an elongated slot extending longitudinally along it at right angles to the direction of tractor travel and constituting the air outflow area.

The sprayer and the elongated hollow body are connected to each other by a tube through which the air flows from the sprayer into the elongated body. A series of nozzles for distributing the treatment liquid from a tank and from a pump are located at regular intervals along the slot in the same direction as that in which the slot itself extends.

Simultaneously blowing air through the slot of the air distributor and feeding treatment liquid through the nozzles results in the emission of a strong jet of nebulized substance that is propagated laterally outwards from the distributor itself.

Prior art distributors, in their current forms, have several disadvantages which limit their application range at least when compared to the improved and more effective performance offered, instead, by the device according to the invention.

The first and main disadvantage of traditional distributors is that the air flow is not uniform along the entire length of the distribution area, due to the fact that the air from the sprayer sleeve coupling is pumped in from the top (or bottom) of the distributor and, as it flows through, tends to be compressed at the bottom of it (or at the top of it, in the second case) .

Obviously, the air at the bottom (or top) is forced out at a higher pressure, thus creating unequal conditions compared to the area at the opposite upper (or

lower) end where the pressure is considerably lower.

This imbalance means that the treatment substance is not distributed evenly on the field or orchard which in turn means that the result of the treatment is not always unsatisfactory and must in some cases be repeated, thus wasting time and resources.

This invention has for an aim to propose a spraying device that overcomes the above mentioned disadvantage and to provide an improved device designed to better distribute the treatment substance on the crops, making distribution constant along the full length of the air bar.

In the distributor according to the invention, the air is no longer channelled in such way as to create a higher pressure at the end opposite the inflow end but its flow is distributed uniformly along its full length, thus greatly improving spraying performance.

The aims and advantages of the invention are all achieved by an air distributing bar device for sprayers characterised in that the interior of the casing which the air is fed into comprises a break that conveys the air in such a way as not to create a higher pressure at the end opposite the inflow end but in a perfectly uniform manner along the full length of the distributor itself.

The break is created by a substantially tubular element along which there are openings which, through a double chamber, cause the air to flow first through the innermost part of the device and then through the outermost part of the device, allowing the air to be distributed in a perfectly uniform and constant manner.

Another characteristic of the invention is the fact that the air outlet openings consist of a plurality of

holes with measured diameter ^' and regular or variable spacing.

Other characteristics and details of the invention can be better understood from the following non-limiting description of it, provided merely by way of example, with reference to the accompanying drawings in which:

Figure 1 is a schematic front view of the distributor according to the invention in its entirety; Figure 2 is a schematic side view of the air " distributor bar represented in cross section through the line B-B of Figure 1;

Figure 3 is a schematic plan view of the distribution device represented in cross section through the line C-C of Figure 1; Figure 4 is a schematic front view of the distributor; Figure 5 is a schematic view of the distributor combined with the air distribution assembly, represented in cross section through the line B-B of Figure 4; Figure 6 is a schematic view of the distributor combined with the air generating assembly, represented in cross section through the line C-C of Figure 4;

Figure 7 is a schematic view of the single-column version of the distributor according to the invention; Figure 8 is a schematic front view of the three-column version of the distributor of Figure 7;

Figure 9 is a schematic side view of the three-column distributor;

Figure 10 is a plan view of the three-column distributor.

With reference to the accompanying drawings, the numeral 1 denotes in its entirety a distributor device according to the invention which essentially consists of a hollow outer casing 2 made in any conventional shape, for example with polygonal, circular or elliptic cross section, whether regular or irregular, depending on requirements .

The casing 2 of the distributor 1 is delimited and closed, at its bottom end, by a cover 3 and, at its top end, by a second cover 4, while the upper part of it is also provided with an elbow fitting 5 of circular cross section for a sleeve coupling 6 designed to channel air from an air generating device 7 into the distributor jttj.

The characteristic novelty of the invention is the fact that inside the casing 2 there is a breaking element

8, forming a double wall and mounted parallel to, and at a certain distance from, the outer wall along almost the full length of the distributor.

In the embodiment illustrated in Figure 3 , the breaking element 8 consists of a pair of profiles 9 having a substantially C-shaped section positioned in front of one another and joined by connecting elements labelled 10.

The two profiles positioned in this way form a structure that forces the air to flow out along a well- defined path, as clearly indicated in Figure 2.

The characteristic air flow that develops inside the device is due to the fact that the sleeve coupling 6 is connected to the elbow fitting 5 whose outlet into the distributor leads into the break 8, so that the air is channelled directly into the chamber defined by the break itself.

The break made in this way forms longitudinal

openings 11 through which the air moving along the inside of the break flows first downwards but almost simultaneously also outwards horizontally, penetrating the spaces between the break itself and the outer casing. The air flows out of the outer casing through suitable holes 12 made in an elongated plate-like element 13 inserted lengthways into the body of the distributor.

These holes may be equal in size and evenly spaced or they may vary in size and spacing, so that the shape of the double wall break combined with the shape and distribution of the holes makes it possible to control the air flow out of the distributor in the most suitable manner .

The perforated plate-like element 13 is positioned lengthways on two opposite sides of the distributor and at right angles to the direction of vehicle movement, so that, during treatment, the jets of air and treatment liquid mixture are always directed at the crops, fruit trees and so on in a direction perpendicular to the foliage.

The air flowing out of the holes combines with the treatment liquid dispensed by customary nozzles which are not illustrated and is distributed in a perfectly uniform manner along the full length of the distributor, thanks to the break 8.

In another embodiment, the double-wall break 8, through which the air flows first in one direction and then in the opposite direction, may have any shape and cross section, creating any number of solutions falling within the scope of the inventive concept.

In another embodiment, the distributor may be positioned either vertically or horizontally, depending on the type of crops or trees to be treated.

Figure 8, 9 and 10 illustrate yet another embodiment, where the distributor is of the multiple type, with a central distributing body and two lateral bodies. This configuration is particularly suitable for treating multiple rows simultaneously.

It will be understood that an expert in the trade may modify and adapt the device described above using equivalent mechanical parts and components to achieve the same purpose and without departing from the scope of the inventive concept as defined by the claims set out below.