RU2650123C1 - Swirling spray - Google Patents

Abstract

FIELD: devices for spraying liquids.

SUBSTANCE: invention relates to sprayers and nozzles used in the chemical and other industries. Proposed vortex nozzle contains a body with a nozzle arranged in it, which is made in the form of an inverted glass. In the bottom of the cup there is a turbulent swirler of liquid flow with at least two inputs inclined to the axis of the nozzle in the form of cylindrical holes located at the bottom of the nozzle. Also, a central cylindrical throttle hole is provided at the bottom of the nozzle, connected to the mixing chamber of the nozzle and in series connected to the diffuser outlet chamber. In the lower part of the nozzle, a divider is attached to the end surface of the cylindrical sleeve by means of two spokes, made in the form of a perforated disk. Convex part of the disk looks towards the diffuser output chamber. Between the diffuser outlet chamber and the divider there is a sprinkler fixed to an axis perpendicular to the nozzle axis, which is rigidly connected to the spokes. Said sprinkler is made in the form of a spherical shell fixed on an axis that is rigidly connected to the spokes with the possibility of rotation.

EFFECT: technical result of the invention is an increase in the spraying efficiency of liquid.

1 cl, 1 dwg

Description

The invention relates to sprayers and nozzles used in chemical and other industries.

The closest technical solution to the claimed object is the nozzle according to the patent of the Russian Federation No. 2480295, F02C 7/24, comprising a housing with a screw coaxially located in the lower part of the housing, and a fitting with a cylindrical hole for supplying liquid connected to the diffuser located in the upper part of the housing, axisymmetric housing and fitting (prototype).

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

EFFECT: increased efficiency of liquid spraying.

This is achieved by the fact that in the nozzle there is a vortex containing a housing with a nozzle placed in it, which is made in the form of an inverted cup, in the bottom of which there is a turbulent swirl of a fluid flow with at least two entries inclined to the axis of the nozzle in the form of cylindrical holes located in the bottom nozzles, where a central cylindrical throttle hole is also made, connected to the nozzle mixing chamber, connected in series with the diffuser outlet chamber, and in the lower part of the nozzle, to the end face in the case of a cylindrical sleeve, a divider, made in the form of a perforated disk, the convex part of which is directed towards the diffuser outlet chamber, is attached by means of two spokes, and between the diffuser outlet chamber and the divider there is a sprinkler mounted on an axis perpendicular to the axis of the nozzle, which is rigidly connected to the spokes, and the sprinkler is made in the form of a propeller mounted in the middle of the axis coinciding with the axis of the nozzle.

The drawing shows a General view of the nozzle.

The vortex nozzle contains a housing 1, which is made in the form of a supply fitting with a central hole 8 and rigidly connected to it and a coaxial cylindrical sleeve 7 with an internal thread 5. In the cylindrical sleeve 7 there is an expansion chamber 4, coaxial to the housing 1. At the same time, it is coaxial to the housing, its lower part is connected to the sleeve 7 by means of a thread 5 nozzle 6, made in the form of an inverted glass, in the bottom 2 of which is made a turbulent swirl of the fluid flow with at least two inlets in the form of cylinders inclined to the axis of the nozzle single holes 9 and 10 located in the bottom 2 of the nozzle 6, in which the central cylindrical throttle opening 3 is made axisymmetrically to the housing 1, connected to the mixing chamber 11 of the nozzle 6, connected in series with the diffuser outlet chamber 12. Moreover, the effective passage areas of the inclined cylindrical holes 9 and 10 taken together and the central hole 8 are equal to each other.

In the lower part of the nozzle, to the end surface of the cylindrical sleeve 7, a divider 14 is made by means of two spokes 13, made in the form of a perforated (not shown) disk, the convex part of which is directed towards the diffuser outlet chamber 12. Between the diffuser outlet chamber 12 and the divider 14 a sprinkler 15 is placed, fixed on an axis 16 perpendicular to the axis of the nozzle, which is rigidly connected to the spokes 13, and the sprinkler 15 is made in the form of a propeller mounted in the middle of the axis 16, coinciding with the axis f rsunki.

The nozzle works as follows.

The sprayed liquid enters the housing 1 through the central hole 8, then into the expansion chamber 4, coaxial to the housing 1. After the chamber 4, the liquid is directed to the nozzle 6, where it is distributed in several directions: the first - through the central cylindrical throttle hole 3 into the mixing chamber 11, and the second - into a turbulent swirl of a fluid flow with inlets inclined to the axis of the nozzle in the form of cylindrical holes 9 and 10, also connected to the mixing chamber 11 of the nozzle, where during the interaction of these flows occurs crushing them to form a turbulent flow heading to the diffuser outlet chamber 12 where it is crushed liquid droplets when they collide with each other due to the expanding of the turbulent fluid flow. The divider 14, made in the form of a perforated disk, the convex part of which is directed towards the diffuser outlet chamber 12, additionally crushes the liquid flow, and the sprinkler 15 made in the form of a propeller turns it into a finely divided stream.

The use of the proposed sprayer in comparison with the known ones allows to reduce the rotational speed of the shaft 4 of the drive mechanism of the housing 1 by approximately 1.5 times and thereby simplify its design and increase reliability, as well as reduce specific energy consumption for spraying liquid by at least 2 times.

It is possible that the sprinkler 15, mounted on the axis 16, perpendicular to the axis of the nozzle, which is rigidly connected to the spokes 13, is made in the form of a cylindrical drum, on the outer surface of which at least one-way helical grooves are made.

It is possible that the sprinkler 15, mounted on the axis 16, perpendicular to the axis of the nozzle, which is rigidly connected to the spokes 13, is made in the form of a ball, on the outer surface of which at least one-way screw blades are fixed.

It is possible that the sprinkler 15, mounted on the axis 16, perpendicular to the axis of the nozzle, which is rigidly connected to the spokes 13, is made in the form of a spherical shell, on the outer surface of which at least one-way helical grooves are made, while the spherical shell is fixed on the axis 16, rigidly connected to the spokes 13, with the possibility of rotation.

Claims (1)

 A vortex nozzle containing a housing with a nozzle placed in it, which is made in the form of an inverted cup, at the bottom of which there is a turbulent swirl of a fluid flow with at least two entries inclined to the nozzle axis in the form of cylindrical holes located in the nozzle bottom, where the central a cylindrical throttle hole connected to the nozzle mixing chamber, connected in series with the diffuser outlet chamber, in the lower part of the nozzle to the end surface of the cylindrical guill two spokes attached to the diffuser, made in the form of a perforated disk, the convex part of which is directed towards the diffuser outlet chamber, and between the diffuser outlet chamber and the divider there is a sprinkler mounted on an axis perpendicular to the axis of the nozzle, which is rigidly connected to the spokes, characterized in that the sprinkler is made in the form of a spherical shell, on the outer surface of which at least one-way helical grooves are mounted, fixed on an axis, rigidly connected with the possibility of rotation.

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