RU2664877C1 - Wide flare centrifugal nozzle - Google Patents

Abstract

FIELD: devices for spraying or atomizing liquids.SUBSTANCE: invention relates to devices for liquids, solutions spraying. Centrifugal wide flare nozzle comprises a body with a vortex chamber and a nozzle insert. Body is made with an inlet branch pipe having a hole coaxial with the inlet cylindrical chamber, swirl chamber located coaxially with respect to the inlet chamber and made in the form of a cylindrical beaker having at least three tangentially disposed openings on the side surface. Holes axes are disposed tangentially relative to the swirling chamber. Made of solid materials nozzle insert is located coaxially to the swirling chamber. Inside the insert there are two in-series calibrated holes, which are coaxial to each other and to the cylindrical surface of the swirl chamber: cylindrical hole and a conical hole that serves as a diffuser, which increases the cone angle at the top of the liquid spray cone. To the swirling chamber cylindrical cup bottom, from the nozzle insert side, auger with helical blades is axially symmetric and coaxially attached, which direction is opposite to the flow twisting direction in the swirling chamber. Helical blades of the screw are located on it with an increase in their outer diameter away from the bottom of the cylindrical beaker, fitting at the same time into the conical surface bounding them. Helical blades of the auger are enclosed in a diffuser, fitting at the same time into its conical surface, which in turn is connected to a nebulizer made in the form of a cylindrical shell. Conical surface of the diffuser is attached to the nozzle insert by means of at least three spokes.EFFECT: higher efficiency of spraying.1 cl, 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. 2500482, F02C 7/24, 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 due to the weak swirl of the fluid inlet.

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

This is achieved by the fact that in a wide-flange centrifugal nozzle containing a housing with a swirl chamber and a nozzle insert, the housing is made with an inlet pipe having an opening coaxial with it of the inlet cylindrical chamber, a swirl chamber located coaxially with respect to the inlet chamber and made in in the form of a cylindrical glass having at least three tangentially located openings on the side surface, the axes of which are located relative to the turbulence chamber and coaxially to the curvature chamber rhenium, a nozzle insert made of solid materials is located, and inside the insert there are two calibrated holes sequentially arranged and aligned with each other and the cylindrical surface of the turbulence chamber: a cylindrical hole and a conical hole that functions as a diffuser, increasing the cone angle at the top of the liquid spray, to the bottom a cylindrical glass of the swirl chamber, from the nozzle insert side, axisymmetrically and coaxially, a screw with screw blades is attached, cat direction The opposite direction of the twist of the flow in the swirl chamber.

In FIG. 1 shows a general view of a nozzle for spraying liquids; FIG. 2 - section of the turbulence chamber along the tangential multichannel input.

A wide-angle centrifugal nozzle consists of a housing 1 with an inlet pipe 4 having an opening 3, an inlet cylindrical chamber 9 coaxial with it, a swirl chamber 8 located coaxially with respect to the inlet chamber 9 and made in the form of a cylindrical cup 2. having on the side surface at least three tangentially located holes 10, the axes of which are located tangentially with respect to the swirl chamber 2, i.e. there is a one-channel tangential input.

Coaxial to the swirl chamber 2 is a nozzle insert 5 made of solid materials: tungsten carbide, ruby, sapphire. Inside the insert there are two calibrated openings arranged in series and aligned with each other and the cylindrical surface of the turbulence chamber 8: a cylindrical hole 6 and a conical hole 7, which serves as a diffuser that increases the cone angle at the apex of the liquid spray. To the bottom of the cylindrical cup 2 of the swirl chamber 8 from the side of the nozzle insert 5, an auger 11 with screw blades 12 is axially symmetrically and coaxially attached, the direction of which is back to the direction of the flow twist in the swirl chamber 8.

It is possible that the direction of the screw blades 12 of the screw 11, axisymmetrically and coaxially attached to the bottom of the cylindrical glass 2 of the swirl chamber 8, coincides with the direction of the flow twist in the swirl chamber 8, while the screw blades 12 of the screw 11 are located on it with an increase in their outer diameter away from the bottom of the cylindrical glass 2, while fitting into the conical surface 13 bounding them.

Wide-angle centrifugal nozzle for spraying liquids works as follows.

The fluid is fed through the inlet 3, then passes into the inlet of the cylindrical chamber 9, and enters through a multi-channel tangential inlet into the swirl chamber 8, made in the form of a cylindrical cup 2. A rotating fluid flow from the swirl chamber 8 passes through a calibrated cylindrical hole 6 of the nozzle insert 5, conical hole 7 and as a result a torch of atomized liquid is formed, the root angle of which is determined by the angle at the apex of the cone of the conical hole 7. diffuser. The screw 11 with screw blades 12 increases the fineness and size of the spray torch.

It is possible that the screw blades 12 of the screw 11 are enclosed in a diffuser, while fitting into its conical surface 13, which in turn is connected to a sprayer 14 made in the form of a cylindrical shell, while the conical surface 13 of the diffuser is attached to the nozzle insert 5 by at least three spokes 15.

Claims (1)

 A wide-angle centrifugal nozzle containing a housing with a swirl chamber and a nozzle insert, the housing being made with an inlet nozzle having an opening coaxial with the inlet cylindrical chamber, a swirl chamber coaxial with respect to the inlet chamber and made in the form of a cylindrical glass having the lateral surface of at least three tangentially located holes, the axes of which are located tangentially with respect to the swirl chamber, and nozzles are located coaxially with the swirl chamber the insert made of solid materials, inside the insert there are two calibrated openings arranged consecutively and coaxial to each other and to the cylindrical surface of the swirl chamber: a cylindrical hole and a conical hole that functions as a diffuser that increases the angle of the cone at the top of the spray jet, while toward the bottom of the cylindrical glass swirl chambers from the nozzle insert side axially symmetrically and coaxially attached a screw with screw blades, the direction of which is backward a twist of the flow in the swirl chamber, characterized in that the screw blades of the screw are located on it with an increase in their outer diameter away from the bottom of the cylindrical glass, while fitting into the conical surface bounding them, while the screw blades of the screw are enclosed in a diffuser, while fitting into its conical surface, which in turn is connected to a spray made in the form of a cylindrical shell, while the conical surface of the diffuser is attached to the nozzle insert by means of at least st least three knitting needles.

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