RU2600901C1 - Kochetov atomizer to spray fluids - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: invention relates to fluids spraying equipment and can be used in firefighting equipment. Fluid atomizer comprises housing with nozzle and central core. In housing liquid supply channel is made. Housing has bushing rigidly attached to it, in lower part of which nozzle is attached. Nozzle is made in form of cylindrical two-staged bushing, which upper cylindrical stage is connected with central core by threaded joint. Core is installed with annular gap relative to cylindrical bushing inner surface, wherein annular gap is connected with radial channels made in said two-staged bushing. Sprayer is rigidly fixed to central core in its lower part. Sprayer is made in form of truncated cone attached by its upper base to central core cylinder base. Splitter is attached to truncated cone lower base by means of pins, which is made in form of round end plate, which edges are bent towards annular gap, and truncated cone on outer side surface there are helical grooves.

EFFECT: high efficiency of liquid fine spraying.

1 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. 2461427, A62C 31/02, publ. 05/20/98, containing a hollow body with a nozzle and a central core.

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 fine atomization of a liquid.

This is achieved by the fact that in a liquid nozzle containing a hollow body with a nozzle and a central core, the body is made with a channel for supplying liquid and contains a coaxial sleeve rigidly connected to it with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve, the upper the cylindrical step of which is connected by means of a threaded connection with a central core coaxial with it, having a central hole and installed with an annular gap relative to the inner surface of the cylinder sleeve, wherein the annular gap is connected to at least three radial channels made in a two-stage sleeve, connecting it to the annular cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical stage, the annular cavity being connected to the channel of the housing for supplying liquid to the central core, in its lower part, the atomizer is rigidly attached, made in the form of a truncated cone, coaxial with the central hole of the core and attached with its upper axis A divider is attached to the base of the cylinder of the central core, and to the lower base of the truncated cone by means of at least three spokes, which is made in the form of an end circular plate, the edges of which are bent towards the annular gap, and there are helical grooves on the outer side surface of the truncated cone .

The drawing shows a structural diagram of the nozzle.

The nozzle comprises a cylindrical hollow body 1 with a channel 3 for supplying liquid and a coaxial sleeve 2 rigidly connected to the body with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve 4, the upper cylindrical step 6 of which is connected by a threaded connection with it coaxial a Central core 7 having a Central hole 9 and installed with an annular gap 10 relative to the inner surface of the cylindrical sleeve 4.

The annular gap 10 is connected with at least three radial channels 5, made in a two-stage sleeve 4, connecting it with an annular cavity 8 formed by the inner surface of the sleeve 2 and the outer surface of the upper cylindrical stage 6, and the annular cavity 8 is connected with the channel 3 of the housing 1 for fluid supply.

A nozzle made in the form of a truncated cone 11 coaxial to the central hole 9 of the core and attached with its upper base to the base of the cylinder of the central core 7 and to the lower base of the truncated cone 11 is fixed to the central core 7, in its lower part, by at least , three spokes 13 attached divider 12, which is made in the form of an end round plate, the edges of which are bent towards the annular gap 10.

On the outer side surface of the truncated cone 11 there are screw grooves (not shown in the drawing), which contribute to a more intensive atomization of the liquid.

In the divider 12, which is attached to the lower base of the truncated cone 11 by means of at least three spokes 13 and made in the form of an end round plate, the edges of which are bent towards the annular gap 10, a throttle hole 14 is made axisymmetrically to the central hole 9 of the central core 7.

An option is possible when an external diffuser 15 is coaxially attached to the sleeve 2, rigidly connected to the housing 1, in its lower part, and to the lower base of the truncated cone 11 of the atomizer, rigidly attached to the central core 7, in its lower part, while on the outer side the surface of the truncated cone 11 has helical grooves, the internal diffuser 16 is coaxially attached so that the output sections of the external 15 and the internal 16 of the diffusers lie in the same plane.

The nozzle is as follows.

Liquid under pressure is supplied to the cavity of the nozzle body 1 and then flows in two directions: first, into the annular cavity 8 through radial channels 5, then into the annular gap 10 between the nozzle and the central core 7. At inlet pressures of more than 0.2 MPa, the liquid accelerates with the formation of a film of liquid that does not come off its outer surface and acquires rotational motion on the helical outer surface of the truncated cone 11.

The second direction in which the fluid enters is through the channel 3 for supplying fluid into the cavity of the central hole 9 of the central core 7, and then through the cavity of the truncated cone 11 enters the divider 12, which is made in the form of an end round plate, the edges of which are bent towards the annular gap 10, in this case, multiple crushing of droplet fluid flows flowing out in these directions occurs.

The presence of gas inclusions in a liquid additionally perturbs its surface, which leads to wave formation and volumetric crushing of the liquid film. The loss of mechanical energy during external acceleration (on the external conical surface) is reduced compared with the same acceleration in a closed channel.

The nozzle can be used in various fields of technology where it is required to create atomized fluid flows in both closed and open spaces. A liquid nozzle can be used, for example, in stationary fire extinguishing systems of the sprinkler type, as well as in mechanical engineering for spraying fuel. In addition, the nozzle can be used in various technological processes, in which it is required to ensure high efficiency of heat and mass transfer processes when spraying liquids.

Claims (2)

1. A nozzle for spraying liquids, containing a hollow body with a nozzle and a central core, the body is made with a channel for supplying liquid and contains a coaxial sleeve rigidly connected to it with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve, the upper cylindrical stage which is connected by means of a threaded connection with a central core coaxial with it, having a central hole and installed with an annular gap relative to the inner surface of the cylindrical the sleeves, while the annular gap is connected to at least three radial channels made in a two-stage sleeve, connecting it to the annular cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical stage, and the annular cavity is connected with the channel of the housing for supplying fluid to the central core, in its lower part, the atomizer is rigidly attached, made in the form of a truncated cone, coaxial with the central hole of the core and attached with its upper base to the base of the cylinder of the central core, and to the lower base of the truncated cone through at least three spokes, a divider is attached, which is made in the form of an end round plate, the edges of which are bent towards the annular gap, and on the outer side surface of the truncated cone there are screw grooves, characterized in that in the divider, which is attached to the lower base of the truncated cone by means of at least three spokes and made in the form of an end round plate, the edges of which are bent towards face gap, axisymmetrically to the Central hole of the Central core made a throttle hole. 2. Nozzle for spraying liquids according to claim 1, characterized in that an external diffuser is coaxially attached to the sleeve rigidly connected to the housing in its lower part, and to the lower base of the truncated cone of the atomizer, rigidly attached to the central core, in its lower part moreover, there are screw grooves on the outer lateral surface of the truncated cone, the internal diffuser is coaxially attached so that the output sections of the external and internal diffusers lie in the same plane.

Images