RU2665756C1 - Acoustic nozzle with double conical swirl - Google Patents

Abstract

FIELD: devices for liquid spattering or spraying.SUBSTANCE: invention relates to means for spraying liquids and solutions. Acoustic nozzle with a double conical swirl contains a cylindrical hollow body in which there is a double conical swirler and a fluid supply channel, to which the acoustic unit is hermetically connected, the acoustic unit consists of a casing made in the form of a sleeve with a central profile hole coaxial with the nozzle body, wherein the profile hole consists of two successively arranged and co-axial holes: a cylindrical bore having a diameter equal to the diameter of the fluid supply passage and a conical hole provided with a perforated cover, while in the housing of the acoustic unit, coaxially with a cylindrical hole, a toroidal resonance cavity is located with resonant inserts facing the perforated shell of the conical hole, and in the wall of the housing of the acoustic unit there is mounted a fitting for supplying compressed air to the annular cavity bounded by the central profile hole, wherein the perforated shell delimits in the cavity of the outlet tapered hole a mixing chamber of fluid flowing through the channel of the nozzle body on one side and compressed air coming from the nozzle.EFFECT: increase spray efficiency, simplify the design and reduce the material consumption.1 cl, 1 dwg

Description

The invention relates to means for sawing liquids and solutions.

The closest technical solution to the claimed object is the nozzle according to the patent of Russian Federation No. 2479788, F02C 7/24, containing a housing coaxially located in the upper part of the housing, a fitting with a cylindrical hole for supplying fluid connected to a diffuser, an axisymmetric housing and a fitting (prototype).

A disadvantage of the known nozzle is the relatively low degree of atomization and design complexity.

EFFECT: increased spraying efficiency, simplified design and reduced material consumption.

This is achieved by the fact that in an acoustic nozzle with a double conical swirl containing a cylindrical hollow body in which a double conical swirl is located and a channel for supplying liquid to which the acoustic unit is hermetically connected, the acoustic unit consists of a body made in the form of a sleeve with a central profile a hole coaxial with the nozzle body, while the profile hole consists of two consecutive and coaxial holes: a cylindrical hole, the diameter of which equal to the diameter of the channel for supplying liquid, and a conical hole made with a perforated shell, while in the case of the acoustic unit, coaxial to the cylindrical hole, there is a toroidal resonance cavity with resonant inserts facing the perforated shell of the conical hole, and into the wall of the body of the acoustic block a fitting is mounted for supplying compressed air to the annular cavity bounded by a central profile hole, while the perforated shell delimits Vaeth conical hole in the output fluid mixing chamber cavity flowing through the channel of the nozzle body on the one hand and the compressed air from the nozzle.

The drawing shows a structural diagram of an acoustic nozzle.

The acoustic nozzle contains a cylindrical hollow body 4, in which there is a double conical swirler, consisting of upper 6 and lower 7 swirlers, a channel 2 for supplying liquid. The conical shell of the lower 7 swirler is fixed by at least three knitting needles 8, fixed at one end to the conical shell of the lower 7 swirl, in its upper part, and the other end - in the annular groove of the nozzle channel 2 (not shown), made on its inner surface.

The top of the conical surface of the conical shell of the upper 6 swirl is mounted on a round perforated plate 5 mounted in the annular groove of the nozzle channel 2 and resting on the top of the lower 7 swirl mounted in the nozzle channel 2 by means of spokes 8. The through surfaces of the hollow conical swirls 6 and 7 are made through screw cuts.

An acoustic unit is hermetically connected to the output section of a cylindrical hollow body 4 of the nozzle with a channel 2 for supplying liquid, consisting of a body 9 made in the form of a sleeve 16 with a central profile hole coaxial with the body of the nozzle 4. The profile hole consists of two consecutively arranged and coaxial holes formed by coaxially located bushings with a sleeve 16: a cylindrical hole 10, the diameter of which is equal to the diameter of the channel 2 for supplying fluid, and a conical hole 15 made with a perforated shell 14. The sleeve 16 in the upper part rigidly connected to the plate 17 of the housing 9 of the acoustic unit, and in the lower part with a flat ring 18.

A toroidal resonant cavity 11 with resonant inserts 13 facing the perforated shell 14 of the conical hole 15 is located in the housing 9 of the acoustic unit, coaxially to the cylindrical hole 10. A fitting 12 for supplying compressed air into the annular cavity bounded by a central cavity is mounted in the wall of the housing of the acoustic unit 9 profile hole.

Thus, the perforated shell 14 delimits in the cavity of the outlet conical hole 15 a mixing chamber for the liquid entering through the channel 2 of the nozzle body 4 on one side and the compressed air (gas) coming from the nozzle 12 for supplying compressed air.

The acoustic nozzle with a double conical swirl is designed to spray liquids and works as follows.

The hollow body 4 of the nozzle with a channel 2 serves to supply the sprayed liquid, and the spraying agent, for example air or gas, is supplied through the acoustic unit to the chamber formed by the conical hole 15 for mixing the liquid and compressed air (gas) entering the acoustic unit.

The acoustic oscillator is formed by a toroidal spherical resonant cavity 11, made in the form of a sound generator formed by the Helmholtz resonator. A spraying agent, for example air, is supplied through a nozzle 12 into an annular cavity bounded by a central profile hole, where it encounters a sound generator made in the form of a toroidal spherical cavity 11 connected to resonant inserts 13. As a result of the passage of the sound generator by a spraying agent (for example , air) in the latter there are pressure pulsations that create acoustic vibrations, the frequency of which depends on the parameters of the resonator. Acoustic vibrations of the spraying agent contribute to finer atomization of the liquid solution supplied to the mixing chamber. In the mixing chamber, the effect of spraying a liquid solution is enhanced by the action of a sound generator.

Claims (1)

An acoustic nozzle with a double conical swirl containing a cylindrical hollow body in which there is a double conical swirl and a channel for supplying liquid to which the acoustic unit is hermetically connected, characterized in that the acoustic unit consists of a body made in the form of a sleeve with a central profile hole, coaxial with the nozzle body, while the profile hole consists of two consecutively located and coaxial holes: a cylindrical hole, the diameter of which equal to the diameter of the channel for supplying fluid, and a conical hole made with a perforated shell, while in the case of the acoustic unit, coaxial to the cylindrical hole, there is a toroidal resonance cavity with resonant inserts facing the perforated shell of the conical hole, and mounted in the wall of the body of the acoustic unit nipple for supplying compressed air to the annular cavity bounded by the central profile hole, while the perforated shell delimits cavity outlet orifice of the conical mixing chamber the liquid flowing through the channel of the nozzle body on the one hand and the compressed air from the nozzle.

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