RU2324112C1 - Acoustic burner - Google Patents

Abstract

FIELD: engineering industry; disperser of fluids and solutions.

SUBSTANCE: acoustic burner consists of cage with sleeve placed inside and rod with conic bead organising the generator of acoustic oscillations in the form of a nozzle and the resonator, executed in the form of concentric ring slots, a ring with a conic surface, linked with the cage, and disperser fixed in the cage by means of a ring, and executed in the form of the ring cavity restricted by a cylindrical barrel in which holes for fluid feeding are equally-spaced. Resonator is executed in the form of, at least, one spherical cavity located in a body of the central rod, coaxially located in a sleeve, coaxial to the cage, and the spherical cavity is connected by the gauged hole with the ring slot organised by face planes of a sleeve and a rod from a conic surface of a bead. And the rod is located with possibility of the fixed moving along an axis of the cage by means of the carving connection fixed by palnuts. Resonator is executed with possibility to regulate the generated frequency of acoustic oscillations due to width regulation of the ring slot organised by face planes of sleeve and rod from conic surface of a bead, by means of installation between the bottom of sleeve and back of rod from the side opposite to conic surface of bead, the gage blocks which width corresponds to the set frequency of acoustic oscillations. Resonator can be executed in the form of the toroidal cavity, axis of which is located coaxially to the cage, and the cavity is connected, at least, by one gagged hole to the ring slot organised by face planes of sleeve and rod from conic surface of bead.

EFFECT: efficiency upgrading of dispersion.

3 cl, 1 dwg

Description

The invention relates to means for spraying liquids, solutions.

The closest technical solution to the claimed object is an acoustic atomizer-nozzle for AS USSR No. 306270, F02C 7/24 dated January 4, 1970, comprising a housing with a glass and a rod with a conical bead located inside, forming an acoustic oscillator in the form of a nozzle and resonator made in the form of concentric annular slots, a ring with a conical surface connected to the body and a spray gun mounted in the housing by means of a ring and made in the form of an annular cavity bounded by a cylindrical sleeve in which openings for supplying liquid are evenly arranged (prototype).

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

The technical result is an increase in spraying efficiency.

This is achieved by the fact that in an acoustic nozzle comprising a housing with a glass and a rod with a conical bead, forming an acoustic oscillator in the form of a nozzle and resonator made in the form of concentric annular slots, a ring with a conical surface connected to the housing and a spray gun, fixed in the housing by means of a ring and made in the form of an annular cavity bounded by a cylindrical sleeve, in which the holes for supplying liquid are uniformly located, the resonator is made in the form, according to at least one spherical cavity located in the body of the central rod, coaxially located in the glass, coaxial to the body, and the spherical cavity is connected by a calibrated hole with an annular gap formed by the end planes of the glass and the rod on the side of the conical surface of the shoulder, and the rod is located with the possibility of fixed movement along the axis of the housing by means of a threaded connection fixed by locknuts.

The drawing shows a General view of an acoustic nozzle.

The acoustic nozzle comprises a housing 1 with a glass 12 placed inside and a rod 11 with a conical shoulder forming an acoustic oscillator in the form of a nozzle and a resonator made in the form of concentric annular slots 4 and 5. Ring 6 is made with a conical surface 7 and connected with the housing 1, and the atomizer 8 is fixed in the housing 1 by means of a ring and is made in the form of an annular cavity 3 bounded by a cylindrical sleeve with a pad 9 in which openings 8 for supplying liquid are uniformly located. The resonator is made in the form of at least one spherical cavity 16 located in the body of the central rod 11, coaxially located in the glass 12, coaxial housing 1, and the spherical cavity 16 is connected by a calibrated hole 17 with an annular gap 5 formed by the end planes of the glass and the rod from the side of the conical surface of the shoulder 11, and the rod is located with the possibility of fixed movement along the axis of the housing 1 by means of a threaded connection fixed by lock nuts 15. The resonator can be made with the possibility the ability to control the generated frequency of acoustic vibrations by adjusting the width of the annular gap 5 formed by the end planes 13 of the glass 12 and the rod 11 from the side of the conical surface of the shoulder, by installing between the bottom of the glass 12 and the end of the shaft 11 from the side opposite the conical surface of the shoulder, calibrated gaskets 14 , the thickness of which corresponds to a given frequency of acoustic vibrations.

The resonator can be made in the form of a toroidal cavity (not shown in the drawing), the axis of which is located coaxially with the housing, and the cavity is connected by at least one calibrated hole with an annular gap formed by the end planes of the glass and the rod from the side of the conical surface of the shoulder.

The acoustic nozzle for spraying liquids works as follows.

A spraying agent, for example air, is supplied through a gas channel 2, where it encounters a cavity 16 made in the form of a spherical cavity connected to the nozzle 4 by means of a calibrated hole 17. As a result of the passage of the resonator 16, a spraying agent (for example, air) in the latter pressure pulsations creating 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 solution supplied to the channel 3, from which the liquid flows in the form of a film to the platform 9, and then crushes under the influence of acoustic vibrations of air into small drops, resulting in the formation of a spray torch with air, the root angle which is determined by the angle of inclination of the conical surface 7 of the ring 6.

Claims (3)

1. An acoustic nozzle comprising a housing with a glass and a rod with a conical bead arranged inside, forming an acoustic oscillator in the form of a nozzle and resonator made in the form of concentric annular slots, a ring with a conical surface connected to the housing, and a spray mounted in the housing by rings and made in the form of an annular cavity bounded by a cylindrical sleeve in which the holes for supplying liquid are evenly arranged, characterized in that the resonator is made in the form of at least one spherical cavity located in the body of the central rod coaxially located in the cup, coaxial to the body, and the spherical cavity is connected by a calibrated hole with an annular gap formed by the end planes of the cup and rod on the side of the conical surface of the shoulder, and the rod is located with the possibility of fixed movement along the axis of the housing by means of a threaded connection fixed by locknuts. 2. The acoustic nozzle according to claim 1, characterized in that the resonator is configured to control the generated frequency of acoustic vibrations by adjusting the width of the annular gap formed by the end planes of the cup and the rod from the side of the conical surface of the bead, by installing between the bottom of the cup and the end of the rod with side opposite to the conical surface of the shoulder, calibrated gaskets, the thickness of which corresponds to a given frequency of acoustic vibrations. 3. The acoustic nozzle for spraying liquids according to claim 1, characterized in that the resonator is made in the form of a toroidal cavity, the axis of which is located coaxially with the housing, and the cavity is connected by at least one calibrated hole with an annular gap formed by the end planes of the glass and the rod from the conical surface of the shoulder.