RU2638348C1 - Acoustic nozzle for atomization of liquids by kochetov - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: in the acoustic nozzle for spraying liquids in the lower part of the screw sprayer body an additional disc sprayer is fixed which consists of a threaded bushing with a central hole connected to the rod cavity rod by means of a calibrated hole. The additional disc sprayer also consists of un upper disc rigidly connected to a threaded bushing with a central hole. In addition, the additional disc sprayer consists of a lower solid disc connected to the upper disc by means of at least three fasteners to form a throttling gap between the discs.

EFFECT: improved efficiency of liquid spraying.

2 cl, 1 dwg

Description

The invention relates to means for sawing liquids, solutions.

The closest technical solution to the claimed object is an acoustic atomizer-nozzle according to the patent of Russian Federation No. 2238349, F02C 7/24, comprising a housing with an acoustic oscillator located inside the nozzle and resonator, made in the form of concentric annular slots located in a plane perpendicular to the axis the housing, a ring with a conical surface associated with the housing, and a spray, which serves to form a liquid film that blocks the exit from the generator, and is fixed in the housing by a hollow zhnya swirler with a screw on the end and a shoulder to accommodate an annular platform on which the fluid flows from the atomizer (prototype).

A disadvantage of the known acoustic nozzle is that it does not provide a high degree of atomization.

EFFECT: increased efficiency of liquid spraying.

This is achieved by the fact that in an acoustic nozzle for spraying liquids containing a housing with nozzles for supplying a sprayed liquid and a spraying agent, inside which is placed an acoustic oscillator in the form of a nozzle and resonator, made in the form of a sound generator formed by a Helmholtz resonator, made in the form of at least one spherical cavity located in the wall of the ring with a conical surface, which is connected through the calibrated gaskets to the body, while the spherical the spine of the sound generator is connected by a calibrated hole with an annular gap formed by the end planes of the housing and the ring with a side conical surface, made on a hollow rod, which is located inside the housing, axisymmetrically to it, and serves to form the formed torch of the sprayed liquid entering through the channel of the hollow rod to the screw an atomizer rigidly fixed to the end of the hollow rod and used to form a liquid film blocking the exit from the sound generator is formed Helmholtz resonator, and a ring with a lateral conical surface made on a hollow rod, is located with the possibility of fixed movement along the axis of the housing by means of a threaded connection connecting the housing to the ring through calibrated gaskets, the Helmholtz resonator being configured to control the generated frequency of acoustic vibrations by adjusting the width of the annular gap formed by the end planes of the housing and the ring, by installing between the housing and the ring with horses The additional surface of the calibrated gaskets, the thickness of which corresponds to a given frequency of acoustic vibrations, has an additional disk atomizer fixed to the lower part of the housing of the screw sprayer, consisting of a threaded sleeve with a central hole connected to the cavity of the rod by means of a calibrated hole, an upper disk rigidly connected to the threaded sleeve with a central a hole, and a lower solid disk connected to the upper disk by at least three fasteners to form throttling clearance between the disks.

The drawing shows a General view of an acoustic nozzle for spraying liquids.

The acoustic nozzle for spraying liquids comprises a housing 1 with nozzles for supplying a sprayed liquid and a spraying agent, for example, air or gas. Inside the housing 1 is placed an acoustic oscillator in the form of a nozzle 4 and a resonator made in the form of a sound generator 13 formed by a Helmholtz resonator. The Helmholtz resonator is made in the form of at least one spherical cavity located in the wall of the ring 9 with a conical surface 7, which is connected through the calibrated gaskets 11 to the housing 1.

The spherical cavity of the sound generator 13 is connected by a calibrated hole 12 with an annular gap 5 formed by the end planes of the housing 1 and the ring 6 with a lateral conical surface, made on the hollow rod 3, which is located inside the housing 1, axisymmetrically to it, and serves to form the formed torch of the sprayed liquid flowing through the channel of the hollow rod 3.

The spraying agent, for example air or any other gas, enters the gas channel 2, and from it through the annular slot 5, the nozzle 4 rushes towards the auger atomizer 8, which is rigidly fixed to the end of the hollow rod 3 and serves to form a liquid film that blocks the exit from the sound a generator 13 formed by a Helmholtz resonator. The fluid is supplied from the hollow rod 3 with a screw spray 8 with swirl, blocking the nozzle 4 to exit the spray agent. A ring 6 with a lateral conical surface, made on a hollow rod 3, is located with the possibility of fixed movement along the axis of the housing 1 by means of a threaded connection 10 connecting the housing 1 to the ring 9 through calibrated gaskets 11.

The Helmholtz resonator is configured to control the generated frequency of acoustic vibrations by adjusting the width of the annular gap 5 formed by the end planes of the housing and ring 6 by installing calibrated spacers 11 between the housing 1 and ring 9 with a conical surface 7, the thickness of which corresponds to a given frequency of acoustic vibrations.

In the lower part of the housing 14 of the screw atomizer 8, an additional disk atomizer 16 is fixed, consisting of a threaded sleeve with a central hole 17 connected to the cavity of the rod 3 by means of a calibrated hole 15, an upper disk 18 rigidly connected to the threaded sleeve with a central hole 17, and a lower solid a disk 19 connected to the upper disk 18 by means of at least three fasteners 21 to form a throttling gap 20 between the disks 18 and 19.

The acoustic nozzle for spraying liquids works as follows.

The spraying agent, for example air, is supplied through the gas channel 2, where it meets on its way a sound generator 13 made in the form of a spherical cavity connected to the nozzle 4 by means of a calibrated hole 12. As a result of the passage of the sound generator 13 by a spraying agent (for example, air) into the latter causes pressure pulsations that create acoustic vibrations, the frequency of which depends on the parameters of the resonator. The acoustic vibrations of the spraying agent contribute to a finer atomization of the liquid solution supplied to the channel 3. From the screw sprayer 8, the liquid flows in the form of a film towards the spraying agent, then it is crushed under the influence of acoustic vibrations of air into small droplets, resulting in the formation of a spray of sprayed solution with air. the root angle of which is determined by the angle of inclination of the conical surface 7 of the ring 9, which through calibrated gaskets 11 is connected to the housing 1.

It is possible that on the end surface of the lower solid disk 19 connected to the upper disk 18 of the additional disk sprayer 16, a groove (not shown) is made in the form of a Archimedes spiral, which helps to increase the spray of the sprayed solution with air due to the untwisting shape of the groove.

Claims (2)

1. An acoustic nozzle for spraying liquids, comprising a housing with nozzles for supplying a spray liquid and a spraying agent, inside which is placed an acoustic oscillator in the form of a nozzle and resonator made in the form of a sound generator formed by a Helmholtz resonator made in the form of at least one spherical cavity located in the wall of the ring with a conical surface, which is connected through the calibrated gaskets to the body, while the spherical cavity of the sound generator the ra is connected by a calibrated hole with an annular gap formed by the end planes of the casing and the ring with a side conical surface made on a hollow rod, which is located inside the casing, axisymmetrically to it, and serves to form the formed torch of the sprayed liquid entering through the channel of the hollow rod to the auger atomizer, rigidly fixed to the end of the hollow rod and used to form a liquid film that blocks the exit from the sound generator formed by the Helmgo resonator ring, and a ring with a lateral conical surface, made on a hollow rod, is located with the possibility of fixed movement along the axis of the housing by means of a threaded connection connecting the housing to the ring through calibrated gaskets, and the Helmholtz resonator is configured to control the generated frequency of acoustic vibrations by adjusting the width of the ring the gap formed by the end planes of the housing and the ring by installing between the housing and the ring with a tapered potassium surface gaskets, the thickness of which corresponds to a given frequency of acoustic vibrations, characterized in that an additional disk atomizer is fixed in the lower part of the screw spray housing, consisting of a threaded sleeve with a central hole connected to the rod cavity by means of a calibrated hole, the upper disk rigidly connected to the threaded sleeve with a central hole, and a lower solid disk connected to the upper disk by at least three fasteners with the formation m throttling clearance between the disks. 2. The acoustic nozzle for spraying liquids according to claim 1, characterized in that on the end surface of the lower solid disk connected to the upper disk of the additional disk atomizer, a groove is made in the form of a spiral of Archimedes, which helps to increase the torch of the sprayed solution with air due to the spinning shape grooves.

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