RU2615375C1 - Kochetov centrifugal vortex nozzle - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: centrifugal vortex nozzle comprises case with swirling chamber and nozzle. The casing is made in form of the union with hole for liquid supply from main line and rigidly connected with it cylindrical coaxial sleeve with external thread. Coaxial to the chassis in its lower part connected by sleeves with inner thread nozzle, made in the form of a centrifugal flow swirler in the form of a deaf cylindrical insert. Insert is made with at least three tangential inlets in the form of cylindrical holes. Liner is part of nozzle and coax installed and aligned towards the centrifugal swirler. In the face of the centrifugal swirler solved tapered bore, the coaxial cylindrical swirler inserted outlandish. Swirler ring is mounted in a cylindrical chamber housing with the formation of annular cylindrical chamber for liquid supply to the tangential inlets centrifugal swirler. Tangential inlets are made in the form of canals, tangentially located to the inner surface of the deaf cylindrical insert. In the centrifugal swirler, the intensifier is installed in a centrifugal twisting fluid flow, which is executed in the form of stock. One end of the rod is attached to the cylindrical surface of a round insert outlandish transformed using screws. At the other end of the rod mounted a second swirl ring, made in the form of a flow sleeve with external screw thread with large pitch of trapezoidal profile and anchored by tapping on the rod with conical radome. Axle chassis nozzles, to its outlet at the bottom of the rigidly attached konfuzor, having on the inner surface threaded with a major step of trapezoidal profile and has a direction opposite twist intensifier fluid flow. Coaxial intensifier of twisting fluid flow with conical radome to confuser the conical flow divider is rigidly attached. The upper perforated part of the flow spreader cone passes inside the surface of the confuser is fitted by perforation. Konfuzor's surface is completed with perforations. The vertex of the perforated part of the spreader cone touches the vertex of the fairing cone. A conical flow spreader is rigidly attached to the confuser coaxially to the intensifier. The upper perforated part of the flow spreader cone passes inside the surface of the confuser is fitted by perforation. The solid part of the cone is designed in the form of rings, located perpendicularly to its axis and is rigidly connected to the perforated part of the cone of chopper.

EFFECT: higher efficiency of spraying by means of increases spray cone.

2 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. 2482925, 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 centrifugal vortex nozzle containing a casing with a swirl chamber and a nozzle, the casing is made in the form of a supply fitting with an opening for supplying fluid from the line, and a cylindrical sleeve coaxially connected to it with an external thread, while coaxially to the casing, in its the lower part is connected by means of a sleeve with a female thread a nozzle made in the form of a centrifugal swirl of a fluid flow in the form of a blind cylindrical insert with at least three tangential inlets in the form of cylindrical holes, while the sleeve is part of the nozzle and mounted coaxially and coaxially with respect to the centrifugal swirler, and in the end surface of the centrifugal swirler a conical hole is made coaxial with the blind cylindrical insert of the swirl, which is installed in the cylindrical chamber of the casing with the formation of an annular cylindrical chamber for supplying liquid to tangential entries of a centrifugal swirl, and tangential entries made in the form of channels tangentially located to the inner surface and a blind cylindrical insert, and in the centrifugal swirler a fluid flow twist intensifier is installed, which is made in the form of a rod, one end of which is fixed to the blind round surface of the cylindrical swirl insert, using a screw, and on the other end of which a second flow swirl made in the form of a sleeve is mounted with external screw thread with a large pitch of a trapezoidal profile and fixed by means of an internal thread on a rod with a cone-shaped cowl.

In FIG. 1 is a diagram of a centrifugal vortex nozzle; FIG. 2 is a section AA in FIG. one.

The centrifugal vortex nozzle (Fig. 1) includes a housing 1, which is made in the form of an inlet fitting with an opening for supplying fluid from the line and a cylindrical sleeve 2 coaxially connected to it with an external thread 3.

Coaxially to the housing 1, in its lower part, a nozzle 5 is connected by means of a sleeve 4 with an internal thread, made in the form of a centrifugal swirl 6 of a fluid flow in the form of a blind cylindrical insert with at least three tangential inlets 13 in the form of cylindrical holes (Fig. 2). The sleeve 4 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 there is a conical hole 8, coaxial to the blind cylindrical insert of the swirler 6.

A centrifugal swirl 6 is installed in the cylindrical chamber 9 of the housing with the formation of an annular cylindrical chamber 7 for supplying fluid to the tangential inlets 13 of the centrifugal swirler 6, and the tangential inlets 13 are made in the form of channels tangentially located to the inner surface of the blind cylindrical insert.

In the centrifugal swirler 6, a fluid flow twist intensifier is installed, which is made in the form of a rod 11, one end of which is fixed to the blank circular surface of the cylindrical insert of the swirler 6 using a screw 10, and at the other end of which a second flow swirl 12 is mounted, made in the form of a sleeve with screw external thread with a large step of a trapezoidal profile, and fixed by means of an internal thread 11 on a rod with a cone fairing 14. Coaxial to the nozzle body 5, a confuser 15 is rigidly attached to its slice in the lower part, having a screw thread with a large step of a trapezoidal profile (not shown in the drawing) on the inner surface and having a direction opposite to the fluid flow twist intensifier 12.

Coaxial to the twist intensifier 12 of the fluid flow with a cone-shaped fairing 14, a conical flow divider 17 is rigidly attached to the confuser 15, the upper perforated part 16 of the cone of the flow divider 17 entering the surface of the confuser 15 made with perforation, and the top of the perforated part 16 of the cone of the divider 17 is in contact with the tip of the cone fairing 14.

A conical flow divider 17 is rigidly attached to the confuser 15, and the upper perforated part of the cone of the flow divider enters the surface of the confuser 15, and the solid part is made in the form of a ring located perpendicular to its axis and rigidly connected to the perforated part 16 of the cone of the divider 17.

Centrifugal vortex nozzle operates as follows.

In the cavity of a deaf cylindrical insert acting as a centrifugal fluid swirl 6, a vortex is formed that swirls a stream of fluid flowing out of a conical throttle hole 8. A swirling fluid flow in the insert cavity is formed by mixing jets flowing from tangentially directed channels 13. At the exit a fluid flow is formed from the insert cavity, 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 depends on the ratio of the total cross-sectional area of the tangential channels 13 and the cross-sectional area of the axial conical throttle hole 8. The intensive formation of cavitation bubbles in the swirling fluid flow occurs in the intensifier of the twist of the fluid flow, which is made in the form of a rod 11, at the end of which mounted the second swirl flow 12, made in the form of a sleeve with a screw external thread with a large pitch trapezoidal profile. In the confuser 15, its inner surface has a screw thread with a large step of a trapezoidal profile, having a direction opposite to the intensifier 12 of the twist of the fluid flow. The mixing of two vortex flows at the outlet contributes to the formation of cavitation bubbles in the swirling fluid flow and thereby increases the spray pattern of the liquid. In this case, the conical flow divider 17 rigidly attached to the confuser 15 increases its fineness.

Claims (1)

A centrifugal vortex nozzle containing a body with a swirl chamber and a nozzle, the body of which is made in the form of a supply fitting with a hole for supplying fluid from the line and a cylindrical sleeve coaxially connected to it with an external thread, while the coaxial body in its lower part is connected by means of a sleeve with an internal a threaded nozzle made in the form of a centrifugal swirl of a fluid flow in the form of a blind cylindrical insert with at least three tangential inlets in the form of cylindrical openings, while the sleeve is part of the nozzle and is mounted coaxially and coaxially with respect to the centrifugal swirl, and a conical hole is made in the end surface of the centrifugal swirl coaxial with the blind cylindrical insert of the swirl, which is installed in the cylindrical chamber of the casing to form an annular cylindrical chamber for supplying fluid to the tangential inlets of the centrifugal swirl moreover, the tangential entries are made in the form of channels tangentially located to the inner surface of the blind cylinder insert, and in the centrifugal swirler a fluid flow twist intensifier is installed, which is made in the form of a rod, one end of which is fixed to a blind round surface of the cylindrical swirl insert, with a screw, and on the other end of which a second flow swirl is made, made in the form of a sleeve with a screw external thread with a large step of a trapezoidal profile and fixed by means of an internal thread on a rod with a cone-shaped fairing, coaxial to the nozzle body, to its cut in the lower part is rigid a confuser is attached, having a screw thread with a large step of a trapezoidal profile on the inner surface, having a direction opposite to the fluid flow twist intensifier, characterized in that the conical fluid flow twist intensifier with a cone-shaped cowl is fixed to the confuser with a conical flow divider, the upper perforated part of the cone the flow divider enters the surface of the confuser made with perforation, and the top of the perforated part of the cone of the divider ikasaetsya cone with the apex of the fairing, and a confuser is fixedly attached conical flow divider, wherein the upper perforated portion of the cone deflector flow enters the interior surface of the converging tube and the solid portion is formed as a ring, disposed perpendicularly to its axis and is rigidly coupled to the perforated part of the deflector cone.

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