The present invention relates generally to spray nozzle assemblies, and more particularly, to spray nozzle assemblies adopted for spraying agricultural chemicals.
Agricultural sprayers typically have a spray boom with a plurality of spray nozzles which are adapted for directing various agricultural chemicals, such as herbicides, pesticides and the like. While it is desirous to efficiently break the liquid down into particles for optimum crop application, generation of relatively fine particles, such as particles having a diameter of less than 150 microns, can be detrimental. These fine particles are subject to drift which can cause pollution to surrounding areas, damage to vegetation not intended to be sprayed, and waste of chemicals. Efforts to design spray nozzles that effect efficient liquid particle breakdown without generation of fine particles having diameters less than 150 microns have presented difficulties. Some attempts to develop such spray nozzles have resulted in spray assemblies that are relatively complex and expensive. Moreover, such prior spray nozzles often do not lend themselves to easy cleaning, which can be necessary due to buildup of contaminants and solid materials in the liquid flow passageways and orifices and during usage.
It is an object of the present invention to provide a spray nozzle assembly which is adapted for generating and discharging liquid sprays for more efficient application on agricultural foliage without undesirable drift.
Another object is to provide a spray nozzle assembly as characterized above which is effective for generating liquid sprays discharges in which a substantial proportion of the liquid particles are relatively large in diameter, such as about 500 microns in diameter, with substantially no particles having diameters less than 150 microns in diameter.
Another object is to provide a spray nozzle assembly of the above kind which is adapted for easy assembly and disassembly for periodic cleaning.
A further object is to provide a spray nozzle assembly of the foregoing type that is adapted for relatively economical manufacture.
Other objects and advantages of the invention will become apparent upon reading the following detailed description and upon reference to the drawings, in which:
While the invention is susceptible of various modifications and alternative constructions, a certain illustrated embodiment thereof has been shown in the drawings and will be described below in detail. It should be understood, however, that there is no intention to limit the invention to the specific form disclosed, but on the contrary, the intention is to cover all modifications, alternative constructions and equivalents falling within the spirit and scope of the invention.
Referring now more particularly to the drawings, there is shown an illustrative spray nozzle assembly 10 in accordance with the invention mounted on a liquid supply boom 11, such as the boom of an agricultural sprayer. The illustrated spray nozzle assembly 10 basically has a two part construction, comprising an outer nozzle body member 12 and an inner body insert 14. The body insert 14 in this case has a generally cylindrical construction, which defines a liquid flow passage 15 and is positionable within a cavity 16 in an upstream end of the outer body member 12. The body insert 14 has a cylindrical inlet end 18 protruding outwardly of the outer body member 12 and into the boom 11 through an aperture in one side of the boom 11. Pressurized liquid supplied to the boom 11 enters the spray nozzle assembly 10 through the liquid passageway 15. The outer body member 12 is formed with an annular retaining flange 19, which is secured to the boom 11 in a known manner, such as by means of a clamp 20. It will be appreciated that other means may be utilized for securing the nozzle on the boom, such as quick disconnect couplings of a known type
The liquid flow passage 15 in this instance comprises a relatively large diameter upstream section 21 that communicates with a nozzling zone 23 in which the liquid flow stream is accelerated with a resulting pressure drop, which in turn communicates with an expansion chamber 26 in the outer body member 12. The nozzling zone 23 in this case includes a metering orifice 22 and an elongated downstream expansion chamber 24 having an outwardly flared conical downstream section 25. The nozzle body expansion chamber 26 in turn communicates with a discharge orifice 28 of the spray nozzle assembly 10.
In accordance with an important aspect of the invention, the spray nozzle assembly has a venturi air inlet that communicates between ambient air and the liquid flow passage at a location downstream of the metering orifice such that following a substantial pressure drop in the liquid upon passage through the metering orifice air is drawn into the liquid flow stream, which stabilizes the flow stream in downstream expansion chambers such that extremely fine liquid particles, such as those having a diameter less than 150 microns, are substantially eliminated from the flow stream prior to direction through the discharge orifice. To this end, in the illustrated embodiment, the nozzle body insert 14 has a venturi air flow passage 30 extending transversely through the expansion chamber 24 downstream of the metering orifice 22. The venturi air flow passage 30 in this case which communicates with an annular airflow passage 31 disposed in surrounding relation about the nozzle body insert 14, which in turn communicates with ambient air through an inlet passage 32 extending radially through a side of the outer nozzle body member 12. The annular passageway 31 in this instance is defined between the outer wall of the outer body member cavity 16 and the outer perimeter of the nozzle body insert 14. The illustrated cavity 16 has an irregular configuration defined by a cylindrical portion 34 concentric to the nozzle body insert 14 and a further radiused portion 35 in eccentric relation to the cylindrical portion 34 (see
In carrying out the invention, the outer body member has a liquid flow passage and discharge orifice configured to further agglomerate fine particles into the flow stream so as to enable the direction of a discharging liquid spray having particles adopted for a more efficient application onto agricultural foliage without undesirable drift. In this case, the expansion chamber 26 of the outer body member 12 into which the liquid/air stream is directed communicates through an eccentrically located longitudinal passage 38 between the expansion chamber 26 and one end of a transverse flow passage 30, which in turn communicates at its opposite end with the discharge orifice 28. In the preferred embodiment, the transverse passage 39 has a longitudinal length t between the longitudinal passage 38 and the discharge orifice 28 that is greater than the diameter d1 of the transverse passage 39. The diameter d1 preferably is larger than the diameter d2 of the expansion chamber 24, and the diameters d1 and d2 both are smaller in diameter than the diameter d3 of the nozzle body member expansion chamber 26. The longitudinal passage 38 preferably has a diameter of about one-half the diameter d3 of the expansion chamber 26 (see
In further carrying out the invention, the discharge orifice of 28 of the spray nozzle assembly 10 is configured to further enhance spray performance and the direction of the relatively large substantially uniform sized droplets. To this end, the discharge orifice 28 is defined by a cross-cut or slot in the end of the outer nozzle body member which has substantially straight upper and lower sides 28a, 28b respectively, interconnected by a radiused section 28c. The cross-cut groove extends into the transverse passageway 39 a distance slightly less than the radius of the transverse passageway 39. The upper and lower flat surfaces 28a, 28b of the cross-cut define an angle of about 15° with the lower flat surface 28b being substantially perpendicular to the axis of the transverse passageway 39 and extending substantially into the transverse passageway 39 and the upper flat surface 28a being angled upwardly with respect to the lower flat surface 28b and extending only through the outer wall of the outer nozzle body member. The transverse passage 39 extends a small distance “x” beyond the upper flat surface 28a so as to effectively define a relatively small recess downstream of the discharge orifice 28 for further stabilizing the liquid particles in the flow stream prior to discharge from the spray nozzle assembly.
In further keeping with the invention, the nozzle body insert 14 and outer nozzle body member 12 are adapted for snap action assembly and disassembly to facilitate periodic cleaning of the nozzle parts. To this end, the nozzle body insert 14 has a radial locating flange 42 that is positionable into a corresponding mating recess 43 in an upstream end of the outer nozzle body member 12 upon mounting. The downstream end of the nozzle body insert 14 has radial sealing nibs 44 that are press fit into the wall of the outer body expansion chamber 26. To facilitate proper orientation of the nozzle body insert 14 into the outer nozzle body member 12, the locating flange 42 and corresponding nozzle body recess 43 are formed with parallel flats 45 on upper and lower sides thereof opposite arcuate sides 40. The locating flange arcuate sides 40 are formed with detent nibs 46 that are releasably engagable with detent recesses 48 in the outer nozzle body member 12 for enabling snap action engagement of the nozzle body insert 14 during assembly (see
With reference to
From the foregoing, it can be seen that the spray nozzle assembly of the present invention has a design which is adapted for generating liquid particle spray discharges for more efficient application on agricultural foliage without undesirable drift. The nozzle assembly further is adapted for economical manufacture, and permits easy assembly and disassembly for periodic cleaning.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US05/22217 | 6/23/2005 | WO | 2/5/2007 |
Number | Date | Country | |
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60582339 | Jun 2004 | US |