RU2670831C9 - Kochetov swirl atomizer - Google Patents

Abstract

FIELD: devices for spraying or atomizing liquids.

SUBSTANCE: invention relates to devices for liquids, solutions spraying. Swirl atomizer contains a body with a swirl chamber and a nozzle. Body is made in the form of a supply fitting with a central hole and rigidly connected to it and a coaxial cylindrical sleeve with an internal thread and an expansion chamber coaxial to the housing. Nozzle made as an inverted barrel is attached to the sleeve by the thread coaxially to the casing in its lower part. Cup bottom is provided with fluid flow turbulence swirler with, at least, two inclined feed cylinder holes inclined to the nozzle axis and made in nozzle face surface, where also a central cylindrical throttle opening is made connected to the nozzle mixing chamber, in series connected to the diffuser outlet chamber. In outlet diffuser chamber splitter is arranged made in form of, at least, three spokes. Each of the spokes with one end is fixed on the outer surface of the diffuser output chamber perpendicular to its surface, and the other end is fixed in the surface of the body of revolution in the form of a ball, whose axis coincides with the axis of the diffuser output chamber. Body of rotation is located in the bottom part after section of the diffuser outlet chamber. Said diffuser is attached to the end surface of the cylindrical sleeve, coaxially with the body, coaxially with the diffuser chamber, the surface of the diffuser lies in the plane located below the surface of the body of revolution of the divider. Surface of body of revolution, made in form of a ball mounted on the axis with possibility of rotation, is perforated. On the axis, elements that are made in the form of segments of screw blades with the possibility of rotation and carry out its rotation are installed.

EFFECT: technical result of invention is increasing spraying efficiency by increasing spray cone.

1 cl, 1 dwg

Description

The invention relates to means for spraying liquids, solutions.

The closest technical solution to the claimed object is the nozzle according to the patent of the Russian Federation No. 2514862, F02C 7/24, containing a housing with a swirl chamber and a nozzle insert (prototype).

A disadvantage of the known nozzle is that it does not provide a wide spray pattern.

The technical result is an increase in spraying efficiency by increasing the spray pattern.

This is achieved by the fact that in a vortex nozzle containing a housing with a swirl chamber and a nozzle, the housing is made in the form of a supply fitting with a central hole, and rigidly connected to it and a coaxial cylindrical sleeve with an internal thread and an expansion chamber, coaxial to the housing, while being aligned with the housing , in its lower part a nozzle made in the form of an inverted glass is connected to the sleeve by means of a thread, in the bottom of which a turbulent swirl of a fluid flow is made with at least two entries inclined to the axis of the nozzle in the form of cylindrical holes located in the end surface of the nozzle, where a central cylindrical throttle hole is also made, connected to the mixing chamber of the nozzle connected in series with the diffuser output chamber, and a divider made in the form of at least three spokes is installed in the diffuser output chamber , each of which is fixed at one end on the outer surface of the diffuser outlet chamber, perpendicular to its surface, and the other at the surface of the body of revolution, for example p of the ball, the axis of which coincides with the axis of the diffuser output chamber, and the rotation body itself is located in the lower part behind the slice of the diffuser output chamber.

The drawing shows a diagram of a vortex nozzle.

The vortex nozzle includes a housing 1, which is made in the form of a supply fitting with a central hole 3, and rigidly connected to it and a coaxial cylindrical sleeve 2 with an internal thread 5. In the cylindrical sleeve 2 there is an expansion chamber 4, coaxial to the housing. In this case, coaxially to the body, in its lower part is connected to the sleeve 2 by means of a thread 5 a nozzle 6 made in the form of an inverted cup, in the bottom 7 of which a turbulent swirl of the fluid flow is made with at least two inlet in the form of cylindrical openings 9 and 10 located in the end surface of the nozzle 6, formed by its bottom 7. In the end surface of the nozzle 6 also has a Central cylindrical throttle hole 8 connected to the mixing chamber 11 of the nozzle, connected in series th with a diffuser outlet chamber 12. Moreover, the effective area of the bore sections of the inclined cylindrical holes 9 and 10, taken together, and the Central hole 8 are equal to each other.

In the output diffuser chamber, a divider is installed, made in the form of at least three spokes 13, each of which is fixed at one end on the outer surface of the diffuser output chamber 12, perpendicular to its surface, and the other in the surface of the body of revolution 14, for example, a ball, whose axis coincides with the axis of the diffuser outlet chamber 12, and the body of revolution 14 is located in the lower part, behind a slice of the diffuser outlet chamber.

It is possible that the surface of the body of revolution 14, the axis of which coincides with the axis of the diffuser output chamber 12, and the body of revolution 14 is located in the lower part, behind the slice of the diffuser output chamber, is made in the form of an ellipsoid, the small axis of which is axisymmetric to the axis of the diffuser output chamber 12 ( not shown in the drawing).

A variant is possible when a diffuser 15 is attached to the end surface of the cylindrical sleeve 2, coaxial with the housing 1, coaxially with the diffuser chamber 12, the cut surface of which lies in a plane below the surface of the divider rotation body 14.

A variant is possible when the divider is made in the form of two spokes 13, each of which is fixed at one end on the outer surface of the diffuser outlet chamber 12, perpendicular to its surface, and the other on the axis 16, on which, with rotation, a rotation body 14 is mounted, made in the form of a ball, the center of which lies on the axis of the diffuser output chamber 12.

A variant is possible when the surface of the body of revolution 14, made in the form of a ball mounted on the axis 16, with the possibility of rotation, is made perforated.

A variant is possible when, to the surface of the body of revolution 14, made in the form of a ball mounted on the axis 16, with the possibility of rotation, elements are installed that rotate it, for example, in the form of segments of screw blades (not shown in the drawing).

Vortex nozzle operates as follows.

The sprayed liquid enters the housing 1 through the central hole 3, 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 is through the central cylindrical throttle hole 8 in 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 the additional fragmentation of liquid droplets when they collide with each other due to the expanding of the turbulent fluid flow.

In the output diffuser chamber 12, the output vortex stream collides with the divider, its spokes 13, and the surface of the body of revolution 14, which leads to additional crushing of liquid droplets and the formation of finely sprayed jets.

Claims (1)

A vortex nozzle containing a housing with a swirl chamber and a nozzle, the housing is made in the form of a supply fitting with a central hole and rigidly connected to it and a coaxial cylindrical sleeve with an internal thread and an expansion chamber, a coaxial body, while the coaxial body in its lower part is connected to the sleeve by means of a thread, a nozzle made in the form of an inverted glass, in the bottom of which a turbulent swirl of a fluid flow is made with at least two inlet in the form of cylindrical holes of the nozzles located in the end surface of the nozzle, where a central cylindrical throttle opening is also connected, connected to the nozzle mixing chamber connected in series with the diffuser outlet chamber, a diffuser made in the form of at least three spokes, each of which is one end, is installed in the diffuser outlet chamber mounted on the outer surface of the diffuser output chamber perpendicular to its surface, and the other in the surface of the body of revolution, for example a ball whose axis coincides with the axis of the diffuser output chamber, and the rotation body itself is located in the lower part behind the slice of the diffuser output chamber, characterized in that the surface of the rotation body, the axis of which coincides with the axis of the diffuser output chamber, and the rotation body itself is located in the lower part behind the slice of the diffuser output chamber, and a diffuser is attached to the end surface of the cylindrical sleeve coaxial with the housing coaxially to the diffuser chamber, the cut surface of which lies in a plane below the surface of the divider’s body of rotation, and NOSTA rotating body designed as a ball mounted on an axis rotatably, is perforated, with the axle rotatably mounted elements performing its rotation, in the form of segments of screw blades.

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