HU193646B - Apparatus for spraying of improved efficiency plant cultures advantageously vine and fruit ones - Google Patents

Abstract

In a method for sprinkling vineyards and fruit crops, the sprinkling is carried out according to an oblique angle ( alpha 1, alpha 2) with respect to the displacement direction (a), the sprinkling making a crown configuration. The method according to the present invention may be applied by a sprinkler provided with at least one axial blower perpendicular to the displacement direction (a). The sprinkler according to the present invention is characterized in that the axial blower (5) is surrounded at a certain interval with a cylinder envelope (6) and in that the axial blower (5) is provided on its discharge side with at least one coaxial guiding element (7) shaped as a rotation body and widened towards the outside.

Description

FIELD OF THE INVENTION The present invention relates to an improved directional spraying of crop crops, preferably grape and fruit crops.

Proper crop protection in various crop cultures, such as vine and fruit crops, is a factor that increases crop yield and yield. The effectiveness and efficiency of plant protection products depend on their ability to protect the plant from pests. The protection of fruit and other crops is sprayed.

In addition to the quality of the sprayer, the effectiveness of spraying is determined by the area of the sprayer, the quality of spraying work and the rate of spray loss.

Large-scale vineyards and orchards are usually sprayed with power-driven high-power sprayers. These known devices are generally machines equipped with axial fans.

The axial fans carry an air stream that ensures the atomization and application of the spray liquid. However, the known equipment has the disadvantage that the optimum spray coating is achieved by using an unreasonably high amount of spray liquid.

Directed spray application can achieve optimal spray coverage of the plant with minimal spray application.

Such a solution is described in German Patent Publication No. 2 829 468 for the spraying of high-growth crops, in particular hops.

In the embodiment, a fan is mounted on the rear side of the perfume tank mounted on the towed chassis, which, together with the nozzle, is actuated by a coupler connected to the impeller mounted on the tank chassis. As a result, during travel, the device swings out in an angle of 70-110 ° with the direction of travel. It is obvious that the oscillation cannot be uniform, so the spread pattern also varies within wide limits. However, in addition, the directed spray application is carried out by horn-shaped, fixed upwardly directed deflectors. This training predetermines and limits the work performed by the equipment, only for spraying tall plants.

You want to improve the efficiency of spraying by using a rotary sprinkler application in German Patent No. 2,209,998 and in German Patent Publication No. 2,926,248, which use a sprayer with fixed deflectors. However, with these designs, only a small improvement in efficiency can be achieved.

The object of the present invention is to eliminate the defects of the guided spray application equipment. To this end, a sprayer device 2 is provided with adjustable baffles which flow the air conveyed by the nozzles and the spray liquid at a forward angle of 10 ° to 80 °, preferably 45 ° and backward of 100 ° to 170 °, preferably 135 °. ° angle. This additional technical effect is further enhanced by encircling the axial fan housing with an outer cylinder casing by providing a secondary air flow gap between the cylinder casing and the fan casing. Finally, to further control the flow of air from the nozzle, the bottom and top of the unit's cylinder casing are provided with additional baffles designed to minimize spray loss.

The apparatus of the invention thus achieves optimum penetration (opacity) in fruit and vine cultures.

The invention will be further described with reference to the accompanying drawings.

Figure 1 illustrates spray application by a conventional sprayer.

Figure 2 is a schematic enlarged view of the spray pattern of Figure 1.

Figure 3 shows a spray pattern of spraying with an apparatus according to the invention.

Figure 4 is a top plan view of a portion of the spray pattern of Figure 3.

Figure 5 is a top plan view of an apparatus according to the invention.

Figure 6 is a sectional view of the apparatus of Figure 5, taken along the line VI-VI in the figure.

Figures 1 and 2 show the spray pattern of known spraying devices. Device 2 travels in the direction indicated by arrow "a" while spraying the sprayed material onto the canopy of plants in the directions indicated by arrows "b" and "c". It is also clear in the drawing that there is an E-distance between the individual plants, and in this range the sprayed liquid is lost.

Figure 2 shows the canopy 1, whose branches 3 are marked with circles. The drawing illustrates that if the spray is sprayed onto the plant from two sides in the direction of the arrows "b" and "c", the inner branches 3 will receive significantly less spray than would be expected from the amount sprayed.

Figures 3 and 4 show a spray pattern of the apparatus according to the invention for comparison with conventional apparatus. Identical details of the drawing are denoted by the same reference numerals. The diagrams show that there is a significant difference between

-2193646, namely that the device according to the invention is capable of spraying in both directions indicated by the arrows "d" e "f" g.

The spray directions defined by the arrows "d""e""f""g" in Fig. 3 are the angles ,, and ₂ , respectively, in the direction of the arrow indicating the direction of travel of the device. In this way, the spray is applied almost entirely to the crop to be protected. The value of the angles α, or ₂ depends on the relative distance E of the trees or vineyards, respectively.

In our experiments, the angle α is preferably between 10 ° and 80 °, preferably 45 °, and the angle α ₂ is preferably between 100 and 170 °, preferably 135 °.

The canopy 1, the branches 3, and the leaf and fruit receive significantly more sprays from the spray directions defined by the arrows "d" e "f" g because they also spray from the directions to be sprayed,

Figures 5 and 6 show a plan view and a sectional view of a preferred embodiment of the device according to the invention.

The device, which has two axial fans, is mounted on a stand 4 and has two fan housings 5. (Figure 5).

The air supplied by the fan of the unit and the spray liquid flowing out of the nozzles flow in two directions to the plant per fan (directions indicated by bold arrows, which move at angles a and ₂ ). As a result, we can achieve an optimal spray pattern and complete plant coverage.

Figure 6 is a sectional view of an apparatus according to the invention.

The axial fan 14 is disposed in the fan housing 5 which is surrounded by an outer cylinder casing 6. Four baffles 7 of different sizes are disposed within the cylinder shell 6.

These baffles 7 are axially adjustable and paraboloid-shaped.

An annular air gap 13 is formed between the fan housing 5 and the outer cylinder casing 6. Primer L, the air stream guide plates 7 and flows between the cylinder 6 and this is also the fact through the air gap 13 - due to the vacuum effect - inlet _L2 secondary air stream.

page

The baffles 7 direct the air flow in a defined direction which carries a spray from the nozzle 11 and the nozzles 12.

The air supplied by the fan takes the form of a hollow cone inside the cylinder casing. When sprayed into this air stream through the nozzles, it also follows the hollow conical shape of the air stream.

Further spoon-shaped baffles 8,9 may be mounted on the cylinder cover 6. The lower baffle 8 deflects the spray directed towards the ground towards the canopy. The upper deflector 9 deflects the upward spray towards the plant. The installation of the upper baffle 9 is particularly important when spraying low crops.

The nozzles 12 mounted on the nozzle 11 can be replaced as required.

However, the device according to the invention can also be formed by mounting the baffles 7 not on the cylinder housing 6 but on an outer frame.

The device of the present invention is capable of providing a controlled spray dispersion and reducing spray loss. This improves the spraying performance, the spray coverage of the plant and the uniformity of spraying.

The use of the device according to the invention also improves the specific spray application and reduces the level of environmental pollution.

Claims (3)

Apparatus for improved spraying of crop crops, preferably vine and fruit crops, comprising a support frame (4), a plurality of axial blowers (14), a spout (11) and nozzles (12) arranged therein, characterized in that the axial blower (14) before, one or more axially adjustable baffles (7), preferably paraboloidal, an annular air gap (13) between the fan housing (5) and the outer cylinder skirt (6) and a lower and upper baffle (8,9) disposed on the cylinder skirt. Apparatus according to claim 1, characterized in that it has an adjustable baffle plate (7) disposed within the cylinder envelope (6) surrounding the fan housing (5). Apparatus according to claim 1, characterized in that it has an adjustable baffle plate (7) located outside the roll casing (6). Figure 6