RU2622929C1 - Acoustic nozzle - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: in the acoustic nozzle, an external diffuser is coaxially attached to the casing. An internal perforated diffuser is coaxially attached to the fastening element of the annular cavity resonator with the resonator rod. The output sections of the external and internal diffusers lie in one plane perpendicular to the axis of the annular volume resonator.

EFFECT: increased efficiency of dispersion.

1 dwg

Description

The invention relates to means for spraying liquids, solutions and can be used in engine building, chemical, food and light industries.

The closest technical solution to the claimed object is an acoustic atomizer - nozzle on.with. USSR No. 306270, F02C 7/24 from 04.01.70, comprising a housing with an acoustic oscillator located inside the nozzle and resonator, nozzles for supplying air and liquid (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 containing a housing with an acoustic oscillator located inside the nozzle and resonator, nozzles for supplying air and liquid, the acoustic oscillator is made in the form of a conical nozzle coaxial with the housing and having an annular orifice with an external diameter d _c formed by a nozzle exit and a resonator rod with a diameter of d _st and an annular volume resonator of length h formed by a resonator rod and a cylindrical cavity with an external diameter d _p in the fastener, while the cavity of the cavity resonator is separated from the nozzle exit by a distance b, and the pipe for air supply is perpendicular to the axis of the housing and connected to the annular cavity formed by the roller and the inner surface of the housing, while a clip with throttle holes is fixed to the roller coaxial with the annular throttle aperture, and also the resonator rod is coaxially fixed, and the sprayed liquid is supplied through a nozzle located perpendicular to the axis of the housing into the annular cavity, formed with the casing and the outer surface of the nozzle, while one end of the casing is solid and connected with the casing, and in the other end covering the conical nozzle, throttle openings are made, coaxial with the annular throttle aperture, and an adjustment device is provided from the side opposite to the volume resonator in the form of a handwheel with an oil seal, which is mounted on the free end of the roller, and the ratio of the length h of the annular volume resonator to the distance b from the open surface of the cavity of the volume resonator to the cut la lies in the optimal range of values h / b = 0.7 ÷ 1.3; the ratio of the outer diameter d _{p of the} annular volume resonator to the diameter d _{st of the} outer cylindrical surface of the resonator rod lies in the optimal range of values d _p / d _st = 1.2 ÷ 1.9; ratio of the diameter d _c of the annular throttling nozzle orifice to the diameter d _{of item} outer cylindrical surface of the resonator rod is in the optimal range of values d _c / d _v = 1,1 ÷ 1,7.

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

The acoustic nozzle comprises a cylindrical body 1 with an ultrasonic frequency range acoustic oscillation generator arranged in the form of a conical nozzle 10 coaxial with the housing 1 and having an annular throttle hole 11 with an outer diameter d _c formed by a nozzle exit and a resonator rod 12 with a diameter d _st , and an annular volume resonator 14 of length h, formed by a resonator rod 12 and a cylindrical cavity with an outer diameter d _p in the fastening element 13, while the cavity of the volume resonator 14 spaced from the nozzle exit 10 by a distance b. Air is supplied under pressure through a pipe 3, perpendicular to the axis of the housing 1, into the annular cavity 7 formed by the roller 4 and the inner surface of the housing 1. A holder 5 is fixed to the roller 4 with throttle holes 6, coaxial with the annular throttle hole 11, and also coaxially fixed resonator rod 12. The holder 5 contacts in a sliding fit with the cylindrical shank of the nozzle 10. The sprayed liquid is supplied through a pipe 2 located perpendicular to the axis of the housing 1, into the annular cavity 15 formed by throat 8 and the outer surface of the nozzle 10, while one end of the casing is solid and connected with the housing 1, and at the other end, covering the conical nozzle 10, throttle holes 9 are made, coaxial with the annular throttle hole 11.

To change the degree of dispersion of the solution in the housing 1 from the side opposite to the volume resonator 14, an adjustment device is provided in the form of a flywheel 16 with an oil seal 17, which is mounted on the free end of the roller 4.

For optimal operation of the nozzle, the following ratios of its parameters must be observed.

The ratio of the length h of the annular volume resonator 14 to the distance b from the open surface of the cavity of the volume resonator 14 to the nozzle exit 10 lies in the optimal range of values h / b = 0.7 ÷ 1.3;

The ratio of the outer diameter d _{p of the} annular volume resonator 14 to the diameter d _{st of the} outer cylindrical surface of the resonator rod 12 lies in the optimal range of values d _p / d _st = 1.2 ÷ 1.9;

The ratio of the diameter d _{c of the} annular throttle hole 11 of the nozzle to the diameter d _{st of the} outer cylindrical surface of the resonator rod 12 lies in the optimal range of values of d _c / d _st = 1.1 ÷ 1.7.

An external diffuser 17 is coaxially attached to the nozzle casing 8, and an internal perforated diffuser 18 is coaxially attached to the fastening element 13 of the annular volume resonator 14 with the resonator rod 12 so that the output sections of the external and internal diffusers lie in one plane perpendicular to the axis of the ring volume resonator fourteen.

The acoustic nozzle operates as follows.

The spraying agent, for example air, is supplied through the nozzle 3 to the cavity 7, then through the throttle holes 6 of the yoke 5 into the annular throttle hole 11 with an outer diameter d _c formed by the nozzle exit and the resonator rod 12, and then meets the annular volume resonator 14 in its path As a result of the passage of the resonator 14 by a spraying agent (for example, air), pressure pulsations arise in the latter, creating acoustic vibrations, the frequency of which depends on the parameters of the resonator. The acoustic vibrations of the spraying agent contribute to finer atomization of the liquid supplied through the pipe 2 to the cavity 15, formed by the casing 8 and the outer surface of the nozzle 10, from where it enters the throttle holes 9 in the end face of the casing 8 and then crushes under the influence of acoustic air vibrations into small drops, as a result, a torch of the sprayed solution with air is formed, the root angle of which is determined by the angle of inclination of the conical surface of the nozzle 10. Experiments have shown that at an air pressure of 100 k and the average droplet diameter is 90 .mu.m, with increasing air pressure is about 4 times (up to 400 kPa), the mean droplet diameter decreases insignificantly and is 87 microns.

Claims (1)

An acoustic nozzle containing a housing with an acoustic oscillator located inside the nozzle and resonator, nozzles for supplying air and liquid, and an acoustic oscillator made in the form of a conical nozzle coaxial with the housing and having an annular throttle bore with an outer diameter d _c formed by a nozzle exit and a resonator rod with a diameter of d _ct and an annular volume resonator of length h formed by a resonator rod and a cylindrical cavity with an external diameter d _p in the fastener, when the cavity of the cavity resonator is separated from the nozzle exit by a distance b, and the nozzle for supplying air is perpendicular to the axis of the housing and connected to the annular cavity formed by the roller and the inner surface of the housing, while a clip is fixed to the roller with throttle holes coaxial with the annular throttle hole, and the resonator rod is coaxially fixed, and the sprayed liquid is supplied through a nozzle located perpendicular to the axis of the housing into the annular cavity formed by the casing and the external surface nozzle, while one end of the casing is solid and connected with the body, and in the other end, covering the conical nozzle, throttle holes are made, coaxial with the annular throttle hole, while on the side opposite to the volume resonator, an adjustment device in the form of a handwheel with the gland, which is installed on the free end of the roller, and the ratio of the length h of the annular cavity resonator to the distance b from the open surface of the cavity of the cavity resonator to the nozzle exit vomited values h / b = 0,7 ÷ 1,3, the ratio of the outer diameter d _p of the annular cavity to the diameter d _CT external cylindrical surface of the resonator rod is in the optimal range of values d _p / d _v = 1,2 ÷ 1,9, ratio of the diameter d _c of the annular nozzle orifice hole to the diameter d _CT outer cylindrical surface of the resonator rod is in the optimal range of values d _c / d = 1.1 _v ÷ 1.7, characterized in that the housing coaxially to the nozzle fixed outer diffuser, and by mounting element of a ring cavity resonator with a resonator An inner perforated diffuser is coaxially attached with the rod so that the output sections of the external and internal diffusers lie in the same plane perpendicular to the axis of the annular volume resonator.

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