RU2422724C1 - Swirler - Google Patents

Abstract

FIELD: machine building. ^ SUBSTANCE: swirler consists of case with swirling chamber and of nozzle. The case is made as a supply connecting pipe with the central orifice and a coaxial cylinder sleeve with external thread rigidly jointed to the connecting pipe. The nozzle is connected to the case in its lower portion and coaxially to it by means of a sleeve with internal thread. The nozzle is made as a centrifugal swirler of liquid flow and corresponds to a cylinder insertion with at least three tangential inputs in form of cylinder orifices. Also, the sleeve is a part of the nozzle and is installed coaxially and axially relative to the centrifugal swirler with a cylinder throttle orifice on its end surface. The centrifugal swirler is positioned in a cylinder chamber of the case forming a circular cylinder chamber for supply of liquid to tangential inputs of the centrifugal swirler; the latter is connected to a diffuser outlet chamber. ^ EFFECT: raised efficiency of spraying by increased spray. ^ 2 dwg.

Description

The invention relates to means for spraying liquids, solutions.

The closest technical solution to the claimed object is the nozzle on.with. USSR No. 306270, F02C 7/24 from 04.01.70, comprising 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 in the form of a supply fitting with a central hole and a nozzle, the housing is rigidly connected to a coaxial cylindrical sleeve with an external thread, and a nozzle made in the form of a sleeve with an internal thread is connected coaxially to the housing in its lower part. a centrifugal fluid flow swirl in the form of a cylindrical insert with at least three tangential inlets in the form of cylindrical holes, the sleeve being part of the nozzle and mounted coaxially and coaxially o with respect to the centrifugal swirl, in the end surface of which a cylindrical throttle hole is made, and the centrifugal swirl is installed in the cylindrical chamber of the housing to form an annular cylindrical chamber for supplying fluid to the tangential inlets of the centrifugal swirl and connected to the diffuser outlet chamber, and the tangential inlets are made in the form channels tangentially located to the inner surface of the cylindrical insert.

Figure 1 presents a diagram of a vortex nozzle, figure 2 is a section aa of figure 1.

The vortex nozzle (Fig. 1) includes a housing 1, which is made in the form of a fluid supply fitting with a central hole 3 and rigidly connected to it and a coaxial cylindrical sleeve 2 with an external thread.

Coaxially to the housing 1 in its lower part is connected by means of a sleeve 7 with an internal thread a nozzle 5 made in the form of a centrifugal swirl 6 of a fluid flow in the form of a cylindrical insert 11 with at least three tangential inlets 10 in the form of cylindrical holes (Fig. 2). The sleeve 7 is part of the nozzle 5 and is installed coaxially and coaxially with respect to the centrifugal swirler 6.

In the end surface of the centrifugal swirler 6, a cylindrical throttle hole 9 is made.

The centrifugal swirler 6 is installed in the cylindrical chamber 4 of the housing with the formation of an annular cylindrical chamber 8 for supplying fluid to the tangential inlets 10 of the centrifugal swirler 6 and connected to the diffuser outlet chamber 12. The tangential inlets 10 are made in the form of channels tangentially located to the inner surface of the insert 11.

Centrifugal vortex nozzle operates as follows.

In the cavity of the insert 11, which performs the function of a centrifugal fluid swirl 6, a vortex is formed, which swirls a stream of liquid flowing out of a cylindrical throttle hole 9.

The swirling fluid flow in the cavity of the insert 11 is formed due to the mixing of the jets flowing from the tangentially directed channels 10.

At the outlet of the cavity of the insert 11, a fluid flow is formed, characterized by a constant tangential velocity. In this case, the angular velocity of the swirling fluid flow in the channel of the nozzle 5 of the atomizer determines the value of the spray angle of the generated gas-droplet flow. The magnitude of the tangential velocity in the cavity of the insert 11 depends on the ratio of the total cross-sectional area of the tangential channels 10 and the cross-sectional area of the axial cylindrical throttle opening 9. The swirling fluid flow formed in the centrifugal swirler 6 enters the diffuser outlet chamber 12, where the droplets are crushed when they collide with each other another due to the expanding and rotating fluid flow.

Claims (1)

A vortex nozzle containing a housing with a swirl chamber and a nozzle, characterized in that 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 external thread, and coaxially to the case in its lower part is connected via a sleeve with an internal thread a nozzle made in the form of a centrifugal swirl of a fluid flow in the form of a cylindrical insert with at least three tangential inlets in the form of cylindrical holes, while the sleeve is part of the nozzle la and installed coaxially and coaxially with respect to the centrifugal swirl, in the end surface of which a cylindrical throttle hole is made, and the centrifugal swirl is installed in the cylindrical chamber of the housing with the formation of an annular cylindrical chamber for supplying fluid to the tangential inlets of the centrifugal swirl and connected to the diffuser outlet chamber, and tangential entries are made in the form of channels tangentially located to the inner surface of the cylindrical insert.

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