RU2645982C1 - Nozzle of the disk spayer - Google Patents

Abstract

FIELD: technological processes; machine building.

SUBSTANCE: invention relates to axial-flow sprayers used in chemical and other industries for processes associated with the processing of suspensions, solutions and emulsions. Disk atomizer nozzle contains a housing in which the nozzles are fixed. Each of the nozzles comprises a body with a nozzle arranged therein, which is made in the form of an inverted cup, in bottom of which there is turbulent fluid flow swirler with at least two inlets inclined towards axis of nozzle in the form of cylindrical holes located in the bottom of the nozzle. In the bottom of the nozzle a central cylindrical throttle hole is made, connected with mixing chamber of nozzle, communicated in series with outlet diffuser chamber. At the bottom of each of the nozzles, a divider is attached to the to end surface of cylindrical sleeve by means of at least three spokes, made in the form of a perforated disk. Perforated disk convex part is directed towards the diffuser outlet chamber. Coaxial and axially symmetric to the housing, which is made in the form of a supply fitting with a central hole, tube for supplying air to the mixing chamber of the nozzle is fixed by means of a perforated washer. At the tube end at least three chokes are fixed perpendicular to its axis.

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

1 cl, 2 dwg

Description

The invention relates to centrifugal nebulizers used in chemical and other industries for processes associated with the processing of suspensions, solutions and emulsions.

The closest in technical essence and the achieved result is the nozzle according to the patent of the Russian Federation No. 2513403 (prototype), containing a housing with a nozzle placed in it, which is made in the form of an inverted glass, in the bottom of which there is a turbulent swirl of a fluid flow with at least two inclined to the axis nozzles with inlets in the form of cylindrical holes located at the bottom of the nozzle, where a central cylindrical throttle hole is also connected to the mixing chamber of the nozzle connected in series with diffuser output chamber.

A disadvantage of the known technical solution is the relatively low degree of spraying of solutions and emulsions.

The technical result is an increase in the efficiency of spraying solutions and emulsions.

This is achieved by the fact that in a disk atomizer containing a housing with an internal chamber in which the nozzles are fixed, each of them contains 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 fluid flow with at least two inputs inclined to the nozzle axis in the form of cylindrical holes located in the nozzle bottom, where a central cylindrical throttle hole is also made, connected to the nozzle mixing chamber, connected to the diffuser outlet chamber, and in the lower part of each nozzle to the end surface of the cylindrical sleeve there is attached by at least three spokes a divider made in the form of a perforated disk, the convex part of which is directed towards the diffuser outlet chamber.

In FIG. 1 shows a General view of the proposed atomizer, FIG. 2 is a nozzle diagram.

The disk atomizer (Fig. 1) has a hollow body 1 with a cover 2 having a central opening 3 for supplying liquid. The housing 1 is rigidly connected to the shaft 4, the axis of which is perpendicular to the axis connecting at least three radial nozzles 5, which are mounted on the side surface of the housing 1. Each of the nozzles 5 (Fig. 2) contains a housing 6, which is made in the form of a supply fitting with a Central hole 13, and rigidly connected to it and a coaxial cylindrical sleeve 12 with an internal thread 10. In the cylindrical sleeve 12 there is an expansion chamber 9, coaxial to the housing 6. In this case, coaxially to the housing, in its lower part it is connected to the sleeve 12 By means of thread 10, nozzle 11, made in the form of an inverted cup, in the bottom 7 of which a turbulent swirl of a fluid flow is made with at least two inputs inclined in the form of cylindrical holes 14 and 15 located in the bottom 7 of nozzle 11, in which it is axisymmetric to the body 6, a central cylindrical throttle bore 8 is made, connected to the mixing chamber 16 of the nozzle 11, connected in series with the diffuser outlet chamber 17. Moreover, the effective passage areas of the inclined cylindrical bores Rstiy 14 and 15, taken together, and the Central hole 13 are equal to each other.

In the lower part of each nozzle 5 to the end surface of the cylindrical sleeve 12 is attached via at least three spokes 18 a divider 19, made in the form of a perforated (not shown) disk, the convex part of which is directed towards the diffuser outlet chamber 17.

The spray disk works as follows.

The working fluid through the Central hole 3 in the cover 2 is fed into the inner cavity of the housing 1, where it is distributed under the action of centrifugal force by an annular layer along its lateral surface, uniformly creating pressure in all radial nozzles 5. When the fluid ring rotates, pressure is created, due to which the liquid overcomes local input resistance and enters the internal cavity of the nozzles 5.

The sprayed liquid enters the casing 6 through the central opening 13, then into the expansion chamber 9, coaxial to the casing 6. After the chamber 9, the liquid is directed to the nozzle 11, where it is distributed in several directions: the first through the central cylindrical throttle opening 8 into the mixing chamber 16, and the second - into a turbulent swirl of a fluid flow with inlets inclined to the nozzle axis in the form of cylindrical holes 14 and 15, also connected to the mixing chamber 16 of the nozzle, where during the interaction of these flows occurs um their crushing with the formation of a turbulent flow directed to the diffuser outlet chamber 17, where the crushing of liquid droplets occurs when they collide with each other due to the expanding turbulent fluid flow. The divider 19, made in the form of a perforated disk, the convex part of which is directed towards the diffuser outlet chamber 17, additionally crushes the fluid stream, turning it into a fine 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.

A variant is possible (Fig. 2), when coaxially and axisymmetrically to the housing 6, which is made in the form of a supply fitting with a central hole 13, a tube 20 is fixed by means of a perforated washer 22 for supplying air to the mixing chamber 16 of the nozzle 11. At the end of the tube 20, it is fixed perpendicular to it axis of at least three chokes 21, the cavity of which is connected with the cavity of the tube 20, which supplies air to the mixing chamber 16.

A variant is possible (Fig. 2), when a hollow atomizer made in the form of a hollow cylindrical disk, the cavity of which is connected with the cavity of the tube 20, and which is installed perpendicular to the axis of the tube 20, is axisymmetrically fixed at the end of the tube 20 supplying air to the mixing chamber 16 the peripheral part of which is placed at least two chokes 23 and 25, as well as at least one choke 24 is placed on the end surface facing toward the divider 19.

Claims (2)

1. The nozzle of the disk atomizer, comprising a housing in which the nozzles are mounted, each of which contains a housing with a nozzle located 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 inclined to the axis nozzles with inlets in the form of cylindrical holes located in the bottom 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 an outlet chamber, in the lower part of each nozzle to the end surface of the cylindrical sleeve is attached via at least three spokes a divider made in the form of a perforated disk, the convex part of which is directed towards the diffuser output chamber, characterized in that it is coaxial and axisymmetric to the housing, which is made in the form of a supply fitting with a central hole, a tube for supplying air to the mixing chamber of the nozzle is fixed by means of a perforated washer, while at the end of the tube At least three throttles perpendicular to its axis. 2. The atomizer of the disk atomizer according to claim 1, characterized in that at the end of the tube supplying air to the mixing chamber, a hollow atomizer is made axisymmetrically made in the form of a hollow cylindrical disk, the cavity of which is connected with the cavity of the tube, and which is installed perpendicular to the axis of the tube, on the peripheral part of which at least two chokes are placed, and also at least one choke is placed on the end surface facing towards the divider.

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