RU2614620C1 - Nozzle - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: nozzle comprises a hollow cylindrical body with the divider of the vortex flow in the upper part of the housing is formed external thread for connection to the nozzle distribution manifold for liquid supply, and at the bottom of the case is made an external thread for connection with a tapered divider vortex flow through a holder formed in the form of ring to which are attached the outer and inner perforated surface, wherein the housing has an inner cylindrical chamber that serves to supply a liquid in which is installed coaxially with a gap relative to an inner side surface of the swirl formed in the bush with the helical external thread with a large pitch trapezoidal profile and fixed by means of an internal thread on the rod that is fixed on the upper side to the body by means of the filter.

EFFECT: fine liquid spraying efficiency increase.

2 cl, 1 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. 2427402, А62С 31/02 (prototype), containing a hollow cylindrical body with a swirl divider. Using the known design allows you to get a spray in the range of diameters of droplets from 30 to 150 microns at a pressure of not more than 1 MPa.

However, the 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.

The technical result is an increase in the efficiency of fine atomization.

This is achieved by the fact that in the nozzle containing a hollow cylindrical body with a swirl flow divider, an external thread is made in the upper part of the body for connecting to the nozzle of the distribution pipe for supplying fluid, and an external thread is made in the lower part of the body for connection with a swirl conical divider by holders made in the form of a ring to which external and internal perforated surfaces are attached, and in the case there is an internal cylindrical chamber, which it is connected to a fluid supply and in which a swirl is installed coaxially and with a gap relative to its inner side surface, 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 the rod, which is fixed in its upper part by means of a mesh filter to case.

The drawing shows a nozzle diagram.

The nozzle comprises a hollow cylindrical body 1, in the upper part of which an external thread is made for connection to a fitting (not shown) of a distribution pipe for supplying liquid, and in the lower part of the body, an external thread is made for connection with a vortex flow conical divider 8 by means of a clip 9, made in the form of a ring to which an external perforated surface 10 and an internal perforated surface 11 are attached. An external perforated surface 10 and an internal perforated surface the surface 11 is made conical and coaxial with the housing 1. In the housing 1 there is an inner cylindrical chamber 4, which serves to supply fluid. To create the greatest effect of the formation of a finely divided continuous phase of the sprayed liquid in the cylindrical chamber 4, a swirler 3 is mounted coaxially with a gap 7 relative to the inner side surface of the chamber 4, made in the form of a sleeve with screw external thread with a large pitch of a trapezoidal profile and fixed by means of an internal thread 6 on the rod 2. The rod 2 is fixed in its upper part by means of a strainer 5 to the housing 1. To the top of the cone of the outer 10 perforated conical surface of the divider 8 ihrevogo attached additional flow divider, designed as a perforated spherical segment 12.

It is possible that a conical baffle 13 is attached to the peripheral part of the perforated ball segment 12 of the additional divider attached to the top of the cone of the outer perforated conical surface 10 of the divider 8 of the vortex fluid flow, and the diameters of the spherical segment 12 and the upper diameter of the truncated cone of the bump 13 are the same .

The nozzle is as follows.

When the fluid is supplied to the housing 1 under the action of a pressure drop of 0.4 ... 0.8 MPa in the chamber 4, due to the swirl 3, vortex flows of fluid are created, which flow into the conical divider 8, and when the expanding fluid flows expiring through the gap 7 collide with perforated the conical surfaces 10 and 11 of the divider 8 forms a fan-shaped gas-liquid flow in the form of a shroud, i.e. a mechanism for crushing liquid droplets is implemented.

Claims (2)

1. The nozzle containing a hollow cylindrical body with a vortex flow divider, an external thread is made in the upper part of the body for connecting to the nozzle of the distribution pipe for supplying fluid, and an external thread is made in the lower part of the body for connection with a vortex flow conical divider by means of a clip made in the shape of a ring to which the external and internal perforated surfaces are attached, and in the case there is an internal cylindrical chamber, which serves to supply liquid and in which a swirl is mounted coaxially and with a gap relative to its inner side surface, made in the form of a sleeve with a screw external thread with a large pitch of a trapezoidal profile and fixed by means of an internal thread on a rod, which is fixed in its upper part by means of a strainer to the housing, characterized the fact that to the top of the cone of the outer perforated conical surface of the vortex flow divider is attached an additional divider made in the form of a perforated ball with gmenta. 2. The nozzle according to claim 1, characterized in that a conical chipper is attached to the peripheral part of the perforated ball segment of the additional divider attached to the top of the cone of the outer perforated conical surface of the divider of the vortex fluid flow, the diameters of the spherical segment and the upper diameter of the truncated cone of the chipper in place the connections are the same.

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