RU2577653C1 - Kochetov centrifugal vortex burner - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: invention relates to spraying of fluids and can be used in fire fighting, agriculture, in chemical industry etc. Technical result is achieved by the fact that centrifugal swirl atomizer comprises housing, coupling nut, insert with tangential channels, flow swirling chamber, nozzle and disc adjoining the end of the Insert on the side of tangential channels, the insert and disk are made of cermet, inlet edges of tangential channels are rounded in coupling nut end surface axially symmetric body, a central hole, which consists of cylindrical part and conical part while insert has at least three tangential channels located in plane perpendicular to axis of the housing, as well as swirling chamber connected with tangential channels aligned body throttling hole located in the lower part of the insert and disc adjoining the end of the Insert on the side of tangential channels perpendicular to housing axis, and the end surface of the captive nut is secured axisymmetric to the casing the liquid flow divider made up of perforated conical shell with base fixed by screws on the end surface of the captive nut, the top of conical shell surface is directed toward fluid flow swirler, and in lower part of the divider fixed spherical perforated segment so that the top of conical shell coincides with center of spherical surface of the perforated segment.

EFFECT: high efficiency of spraying due to reduced hydraulic resistance of the injector while maintaining flow characteristics, providing homogeneous mixing with inflowing medium.

1 cl, 2 dwg

Description

The invention relates to techniques for spraying liquids and can be used in fire fighting equipment, in agriculture, in chemical technology devices and in the power system.

The closest technical solution to the claimed object is the nozzle according to patent RU No. 2485986, А62С 31/02 (prototype), comprising a housing, a flare nut, a liner with tangential channels tapering in flow, a swirl chamber, a nozzle and a disk adjacent to the end face of the liner from the side tangential channels.

The use of a finely dispersed sprayer of the described design allows one to obtain a uniform volume flow of finely dispersed droplets in the range of droplet diameters from 30 to 150 microns with a water supply pressure of not more than 1 MPa.

However, a sprayer of this design does not allow to achieve a given distribution of flows of fine droplets on the irrigation surface of the required area without increasing the flow rate of the liquid. This is due to the fact that the droplet flows generated by most of the holes are oriented in the horizontal direction and have a symmetrical distribution relative to the horizontal plane at the nozzle exit.

The technical result is an increase in the efficiency of finely dispersed liquid spraying by reducing the hydraulic resistance of the nozzle while maintaining the flow characteristics, ensuring a homogeneous degree of mixing with the inflow medium.

This is achieved by the fact that in a centrifugal vortex nozzle containing a housing, a flare nut, a liner with tangential channels tapering along the flow, a swirl chamber, a nozzle and a disk adjacent to the end face of the liner on the side of the tangential channels, while the liner and disk are made of cermet, the input the edges of the tangential channels are rounded, in the end surface of the union nut, axisymmetrically to the body, a central hole is made up of a cylindrical part and a conical part, and the liner has at least three and a tangential channel located in a plane perpendicular to the axis of the housing, as well as a swirl chamber connected to the tangential channels, a throttle hole coaxial to the housing located at the bottom of the liner and a disk adjacent to the end of the liner from the side of the tangential channels perpendicular to the axis of the housing, and to the end the surface of the union nut, axisymmetrically to the housing, the liquid flow divider is mounted, made in the form of a perforated conical shell with a base fixed with screws on the end face ited cap nut, wherein the vertex of the conical mantle surface directed away from the swirl of the liquid stream and the bottom of the deflector is fixed perforated spherical segment so that the apex of the conical shell coincides with the center of the spherical surface of the perforated segment.

In FIG. 1 shows a frontal section through a centrifugal vortex nozzle; FIG. 2 is a horizontal section through the nozzle of the nozzle.

The centrifugal vortex nozzle consists of a tubular body 1 (Fig. 1), in which, using the union nut 2, the insert 7 of the fluid flow swirl is coaxially fixed through the sealing gasket 10. In the end surface of the union nut 2, axisymmetrically to the housing 1, a central hole is made, consisting of a cylindrical part 8 and a conical part 9.

The insert 7 has at least three tangential channels 3 (Fig. 2 - four channels are shown in the drawing) located in a plane perpendicular to the axis of the housing 1, as well as a twisting chamber 4 connected to the tangential channels 3, a throttle hole coaxial to the housing 1 5, located in the lower part of the insert 7 and the disk 6, adjacent to the end of the insert 7 from the side of the tangential channels perpendicular to the axis of the housing 1. The tangential channels 3 are made with rounded inlet edges and tapering along the flow. The liner 7 and the disk 6 are made of cermet.

A fluid flow divider 13, made in the form of a perforated conical shell with a base 11, fixed with screws 12 on the end surface of the union nut 2, is attached to the end surface of the union nut 2, axisymmetrically to the housing 1.

In this case, the top of the conical surface of the shell is directed away from the swirl of the fluid flow, and a spherical perforated segment 14 is fixed in the lower part of the divider 13 so that the top of the conical shell coincides with the center of the spherical surface of the perforated segment 14.

A sleeve 15 is mounted to the end surface of the union nut 2, axisymmetrically to the housing 1, covering the divider 13 to the surface of its intersection with the spherical perforated segment 14 and acting as a guiding element of the sprayed fluid flow.

Centrifugal vortex nozzle operates as follows.

When supplying fluid to the housing 1 under the action of a pressure drop of 0.4 ... 0.8 MPa from the tangential channels 3, the liquid jets under pressure enter the swirl chamber 4, from which they are sprayed through the throttle aperture under the influence of pressure and centrifugal forces 5. Then, a fine vortex stream first enters the cylindrical part 8 of the central hole, and then into the conical part 9 of this hole, forming a torch of a finely dispersed vortex flow, the opening angle of which is determined by the angle of the conical part 9 of the central opening tions. The tangential channels 3 are made with rounded inlet edges and tapering along the flow, which further reduces the hydraulic resistance and improves the quality of atomization, and the secondary crushing of liquid droplets and obtaining a fine torch provides a plate spray.

In the swirling chamber 4, due to the insert 7 of the swirl of the fluid flow, swirl fluid flows are created, which flow into the splitter 13 of the fluid flow, made in the form of a perforated conical shell, in which the fluid flow is crushed to a finely dispersed phase, and a spherical perforated segment 14, mounted on conical shell, allows you to increase the fineness of the liquid spray phase.

Claims (1)

A centrifugal vortex nozzle containing a housing, a flare nut, a liner with tangential channels tapering downstream, a swirl chamber, a nozzle and a disk adjacent to the end face of the liner from the tangential channel side, while the liner and disk are made of cermet, the input edges of the tangential channels are rounded the end surface of the union nut, axisymmetrically to the body, has a Central hole, consisting of a cylindrical part and a conical part, and the liner has at least three tangential channels, p located in a plane perpendicular to the axis of the housing, as well as a swirl chamber connected to the tangential channels, a throttle hole coaxial to the housing located at the bottom of the liner and a disk adjacent to the end of the liner from the side of the tangential channels perpendicular to the axis of the housing, characterized in that to the end surface of a union nut, axisymmetrically to the body, a liquid flow divider is mounted, made in the form of a perforated conical shell with a base fixed with screws on the end surface and a union nut, while the top of the conical surface of the shell is directed away from the swirl of the fluid flow, and a spherical perforated segment is fixed in the lower part of the divider so that the top of the conical shell coincides with the center of the spherical surface of the perforated segment, and it is axisymmetric to the end surface of the union nut a case is attached to the housing, covering the divider to the surface of its intersection with the spherical perforated segment and acting as a guide element and atomizing the liquid stream.

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