RU2097970C1 - Ultra low-volume sprinkler - Google Patents

Abstract

FIELD: agricultural equipment, in particular, devices for sprinkling field crops and perennial plants. SUBSTANCE: sprinkler has air nozzle provided with skew cut and jet with opening axially aligned with air nozzle. Inclination angle of jet may be adjusted relative to air nozzle. EFFECT: increased efficiency by regulation of flow rate and increased dispersity of working fluid flare boom. 2 dwg

Description

 The invention relates to agricultural machinery, mainly to sprayers for processing field crops and perennial plantings with small doses of the drug and the rate of flow of the working fluid.

There are various designs of small (MO) and ultra-small (ULV) sprayers. So, for example, fan UMO SM-320, OM-630, OP-2000, etc. for example [1] have a complex and not sufficiently reliable design with a hydraulic drive of the spray heads. A more reliable design is of pneumatic-mechanical type ULV, for example, a small-droplet knapsack sprayer СМР-2 [2]
An even better quality and simplicity of design is provided by an ultra-low-volume sprayer [3] including a source of compressed air, air ducts, a frame, a tank, a supply pipe, a sprayer and a jet-forming device. However, the disadvantages of the prototype is the complexity of manufacturing a turbo diffuser, which also reduces the ejection characteristics of the spray due to excessive swirling of the air stream in the spray housing. In addition, in the prototype, the dispersion of the spray and the rate of flow of liquid are regulated only by changing the nozzles of the feed pipe, which is difficult in the field.

 The disadvantages of the prototype are proposed to eliminate a new technical solution.

 The technical solution is to expand the technical capabilities of the sprayer, simplifying its design and improving the quality of processing.

 The technical problem is solved in that in a sprayer including a frame, a reservoir, air ducts, a feed line, an ejector type sprayer with a jet-like device. The latter has a slotted type air nozzle, consisting of two bonded plates and a gasket placed between them, made in the shape of a pear-shaped loop, while the nozzle has an oblique cut at the outlet, the supply pipe is connected to the reservoir through an equalization tank and equipped with a replaceable nozzle at the output end, which located on the axis of the air nozzle and mounted on the spray with the ability to control the angle of inclination relative to the axis of the air nozzle, and the air duct is connected to a source of compressed air in the middle Twomey tap and the pressure vessel.

 According to scientific, technical and patent information, the claimed combination of features has not been identified, which obviously follows from the existing level of technology, which allows us to conclude about the inventive step of the invention.

 In FIG. 1 shows the technological scheme of the sprayer; in FIG. 2 is a section AA in FIG. one.

 The sprayer includes a frame (not shown in the diagram), on which a tank (see Fig. 1) with a working fluid solution is mounted, pipelines 2, equalization tank 3 with a tap 4, air duct 5 with a tap 6 and a gear 7 connected to the spray gun 8, comprising an overpressure jet element 9 with a slotted nozzle 10, consisting of two bonded plates 11 and 12, which form a slice of an oblique air nozzle to form the shape of an air stream and spray pattern and increase the flow rate. Between the plates 11 and 12, a gasket 13 is placed to form an air chamber. The thickness of the gasket can be adjusted to change the ejection properties of the air stream flowing out of the slotted nozzle and ejecting the working fluid entering the nozzle 14 through the feed pipe 15 from the equalization tank 3 into the mixing chamber 16, and then in the form of an air-drop jet to the processing object.

 The jet 14 has the ability to change its position relative to the air stream. The angle of inclination of the nozzle is adjustable with its fixing in one of the available openings of the atomizer body.

 The sprayer works as follows. The air from the compressor of the tractor or the exhaust gases of the mobile power engine transporting the sprayer, under constant pressure, regulated by the gear 7, is supplied via air ducts 5 (Fig. 1) to the slotted nozzle 10 of the jet element 9 of the atomizer 8. When air leaves the slotted nozzle 10 of the jet element 9 and the mixing chamber 16 of the spray gun 8 creates a vacuum, due to which from the reservoir 1 through the equalization tank 3 through the pipe 2 and the feed pipe 15, the working fluid enters the nozzle 14, mounted in the spray gun housing at a certain angle, depending on a given rate of working fluid and droplet size. The working fluid is ejected from the nozzle 14 into the mixing chamber 16, where it is mixed with the air flow absorbed by the jet element 9 from the atmosphere. Next, the airborne mixture falls on the treated object plant, soil, etc.). Switching off the supply of working fluid to the processing object is done by closing the gearbox valve 6 and lowering the equalization tank below the spray nozzle level (for example, using a cable).

 The diameter of the nozzle 14 is selected depending on the type of working fluid (suspension, emulsion, etc.) so that it does not clog and ensures a high process reliability.

 The rate of flow of the working fluid and the dispersion of the spray are controlled by changing the air pressure in the system using a gearbox, changing the angle of the nozzle 14 by moving it in one of the holes on the body of the spray gun 8 and changing the height of the surge tank 3 relative to the axis of the spray nozzle 10.

Claims (1)

 The sprayer is ultra-small, including a source of compressed air, a frame, a tank, air ducts, a feed line, an ejector-type atomizer and a jet-forming device, characterized in that the jet-forming device has a slotted air nozzle consisting of two fastened plates and a gasket placed between them, made in the shape of pear-shaped loop, while the nozzle has an oblique cut at the outlet, the feed pipe is connected to the reservoir through the equalization tank and provided at the output end of the nym orifice which is located on the axis of the air nozzle and is attached to the spray gun with the possibility of adjusting the angle of inclination relative to the axis of the air nozzle, wherein the air duct is connected to a compressed air source via the tap and the pressure reducer.

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