RU2654016C2 - Centrifugal atomizer - Google Patents

Abstract

FIELD: devices for spraying liquids.

SUBSTANCE: invention relates to fluid and solvent sprayers and may be used in engine building, chemical and food industries. In a centrifugal atomizer comprising a housing, into which the screw is fitted, and a liquid inlet, the housing consists of two coaxial, interconnected cylindrical sleeves: large diameter sleeves and small diameter sleeves, while smaller-diameter sleeve houses auger fitted therein and aligned therewith and rigidly coupled with its inner surface, while auger outer surface is a helical groove. Inside the screw, at least two through-holes are arranged concentrically along the circumferences of the row, with at least three openings in each row, and with the diameters of the holes being reduced from the auger axis to the peripheral holes. Fitting is arranged inside larger-diameter sleeve, aligned therewith and screwed thereon via seal gasket. Inside the fitting, a cylindrical hole is formed coaxially, passing into an axially symmetrically located diffuser, which is connected to a cylindrical chamber formed by the inner surface of a smaller-diameter sleeve and the end face of the screw. Screw has a rod coaxially and axially symmetrically fixed inside it, one end of which is flush with its end surface facing the fitting, and at the other free end of the rod perpendicular to its axis at least two discs uniformly spaced along the length are fixed, the diameters of which increase towards the free end of the rod, and at the free end of the rod a perforated sprayer is installed, made in the form of a spherical segment, the concave part of which faces the latter along the disk rod.

EFFECT: technical result is the improvement in the efficiency of spraying.

1 cl, 1 dwg

Description

The invention relates to means for spraying liquids and solutions and can be used in engine building, chemical and food industries.

The closest technical solution to the claimed object is the nozzle according to the patent of the Russian Federation No. 2499634, F02C 7/24 of 02/10/11, containing a housing with a chamber, into which the screw is pressed in, with a throttle hole in the bottom of the housing, and a fitting with a cylindrical hole, diffuser and gasket (prototype).

A disadvantage of the known centrifugal nozzle is that it does not provide a high degree of atomization.

The technical result is an increase in spraying efficiency.

This is achieved by the fact that in a centrifugal nozzle containing a housing into which the screw is pressed in and a fitting for supplying fluid, the housing consists of two coaxial, interconnected cylindrical bushings: a larger diameter sleeve and a smaller diameter sleeve, while inside the smaller diameter sleeve, coaxial to it, there is a screw that is rigidly connected to its inner surface, for example, pressed into it, and the outer surface of the screw is a helical groove, and at least two concentric arrangements are made inside the screw along the circumferences of a series of through holes, at least three holes are made in each row, and the diameters of the holes decrease from the axis of the screw to the peripheral holes, and in the larger sleeve, coaxially located, there is a fitting rigidly fixed in it, for example, by means of a threaded connection, through a sealing gasket, while a cylindrical hole is made coaxially inside the fitting, passing into an axisymmetrically located diffuser, which is connected to a cylindrical chamber formed by an inner at the top of the sleeve of a smaller diameter and the end surface of the screw, and inside the screw, coaxially and axisymmetrically to it, a rod is fixed, one end of which is flush with its end surface facing the fitting, and at least two are fixed on the other free end of the rod perpendicular to its axis evenly spaced along the length of the rod of the disk, the diameters of which increase towards the free end of the rod, and a perforated atomizer made in the form of a spherical segment is installed on the free end of the rod , the concave part of which is turned towards the last along the length of the stem of the disk.

A perforated conical shell is attached to the peripheral part of the spherical segment, the other part of which is rigidly connected to the end surface of the cylindrical sleeve of a smaller diameter of the nozzle body, and the screw located inside and coaxially with the smaller diameter of the sleeve is rigidly connected to its inner surface and pressed into it, while the fitting located in the sleeve of a larger diameter and coaxial to it is rigidly fixed in it by means of a threaded connection, through a sealing gasket, and to the end surface of the cylinder Coy smaller diameter sleeve secured socket formed as a diffuser that covers the perforated spray formed as a spherical segment.

The drawing shows a General view of the nozzle for spraying liquids.

The centrifugal nozzle consists of a housing consisting of two coaxial, interconnected cylindrical bushings: bushings 5 of a larger diameter and bushings 4 of a smaller diameter. Inside the sleeve 4 of a smaller diameter, coaxial to it, is a screw 1, rigidly connected to its inner surface, for example, pressed into it. The outer surface of the screw 1 is a helical groove with a right (or left) thread. Moreover, between the inner surface of the sleeve 4 of a smaller diameter and the outer surface of the screw 1, a helical external cavity 3 of the screw 1 is formed.

In the sleeve 5 of a larger diameter, coaxial to it, there is a fitting 7, rigidly fixed therein, for example by means of a threaded connection, through a sealing gasket 6. Inside the fitting 7, a cylindrical hole 8 is coaxially made, passing into an axisymmetrically located diffuser 9, which is connected to the cylindrical chamber 10 formed by the inner surface of the sleeve 4 of smaller diameter, and the end surface of the screw 1.

Inside the screw 1, at least two rows of through holes 11 are arranged concentrically arranged around the circumference of the row, and at least three holes are made in each row, and the diameters of the holes decrease from the axis of the screw 1 to the peripheral holes 11.

Inside the screw 1, coaxially and axisymmetrically to it, a rod 2 is fixed, one end of which is flush with its end surface facing the nozzle 7, and at least two disks 12 evenly spaced along the shaft 2 are fixed on the other free end of the rod perpendicular to its axis whose diameters increase towards the free end of the rod 2.

At the free end of the rod 2 there is a perforated atomizer made in the form of a spherical segment 13, the concave part of which is directed towards the last along the length of the rod 2 of the disk 12, and a perforated conical shell 14 is attached to the peripheral part of the spherical segment 13, the other part of which is rigidly connected to the end the surface of the cylindrical sleeve 4 of a smaller diameter of the nozzle body.

To the end surface of the cylindrical sleeve 4 of a smaller diameter is attached a bell 15, made in the form of a diffuser, covering the perforated atomizer, made in the form of a spherical segment 13.

A centrifugal nozzle for spraying liquids works as follows.

The fluid is supplied through a cylindrical hole 8 of the nozzle 7 into the diffuser 9, and from it into the chamber 10, from which it simultaneously flows under pressure in two directions: firstly, into the screw external cavity of the screw 1, forming an external rotating fluid flow, and secondly - into the peripheral throttling holes 11, forming a continuous flow.

At the exit of the nozzle, there are two fluid flows, one of which is a rotating turbulent type and the other is continuous, which, depending on pressure and geometric dimensions, can be either laminar or turbulent and which interacts alternately with disks 12 located along the length of the shaft 2 whose diameters increase towards the free end of the rod 2.

In the interaction of the rotating and continuous flows at the outlet of the nozzle, an additional crushing of the liquid droplets occurs due to their collision with the disks 12 in these liquid flows.

The nozzle screw 1 can be made of solid materials: tungsten carbide, ruby, sapphire.

At an average pressure supplied through a cylindrical hole 8 of the liquid under a pressure of 6 ... 9 MPa, spraying is provided from 400 to 1000 kg / h of liquid. The nozzle is easy to manufacture and maintain.

Claims (1)

A centrifugal nozzle containing a housing into which the screw is pressed in and a fitting for supplying fluid, the housing consists of two coaxial, interconnected cylindrical bushes: a larger diameter bush and a smaller diameter bush, while a screw is located inside the smaller bush, coaxial with it, rigidly connected with its inner surface, and the outer surface of the screw is a helical groove, and at least two through holes concentrically arranged around the circumferences of the holes are made inside the screw, while in Each row has at least three holes, and the hole diameters decrease from the axis of the screw to the peripheral holes, and in the larger sleeve, coaxially to it, there is a fitting rigidly fixed in it through a sealing gasket, while a cylindrical hole is made coaxially inside the nozzle, passing into an axisymmetrically located diffuser, which is connected to a cylindrical chamber formed by the inner surface of the sleeve of a smaller diameter and the end surface of the screw, and inside the screw, coaxially and axially At the same time, a rod is fixed to it, one end of which is flush with its end surface facing the fitting, and at least two disks uniformly spaced along the rod’s length are fixed perpendicular to its axis on the other free end of the rod, the diameters of which increase toward the free end of the rod, characterized in that a perforated atomizer is installed on the free end of the rod, made in the form of a spherical segment, the concave part of which is turned towards the latter along the length of the disk rod, and The peripheral part of the spherical segment is attached with a perforated conical shell, the other part of which is rigidly connected to the end surface of the cylindrical sleeve of the smaller diameter of the nozzle body, and the screw, located inside the sleeve of the smaller diameter and coaxially to it, is rigidly connected to its inner surface, pressed into it, while the fitting located in the sleeve of a larger diameter and coaxial to it, is rigidly fixed in it by means of a threaded connection, through a sealing gasket, and to the end surface of the cylindrical of a smaller diameter sleeve, a socket is made, made in the form of a diffuser, covering a perforated atomizer, made in the form of a spherical segment.

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