RU2622793C1 - Kochetov's pneumatic dispenser - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: liquid atomizer comprises a hollow cylindrical body connected to a nozzle in which throttling openings are provided. The hollow casing consists of a cylindrical part with external thread for connection to a distribution pipeline union and two hollow cylindrical-conical collars sequentially connected and coaxial to it. Coaxial to the body, in its lower part, the nozzle, which is at the bottom of the glass, which are made of vertical and inclined throttle holes at an angle of 45° to the axis of the nozzle. A number of radial holes, axes, which lie in a plane perpendicular to the axis of the shell, are made in the cylindrical shell belt. The body and nozzle form among themselves several coaxial internal chambers: cylindrical and located between them, a conical chamber. One of the cameras is used to supply fluid spray, and conical and cylindrical chambers are the expansion chambers. In the central part of the nozzle, a tube for supplying air (gas) is coaxially attached to it, to one end of which, in its lower part, a hollow disk with a perforation facing the outlet cross-sections of the throttle openings of the nozzle is fixed.

EFFECT: increasing the efficiency of finely dispersed liquid spray.

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 a spray (sprinkler) according to patent RU No. 2416443, A62C 31/02, publ. 05/20/1998), containing a hollow cylindrical body with a fluid supply pipe, a nozzle and a number of throttle openings.

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.

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 atomizer containing a hollow cylindrical body connected to a nozzle in which throttle openings are made, the hollow body consists of a cylindrical part with an external thread for connection to the nozzle of the distribution pipe for supplying liquid, and two serially connected and coaxial with it, hollow cylindrical-conical belts, and coaxially to the body, in its lower part, a nozzle is made, made in the form of a glass, in the bottom of which vertical and inclined throttle openings are made I am at an angle of 45 ° to the axis of the nozzle, and in the cylindrical belt of the casing at least one row of radial holes is made, the axes of which lie in a plane perpendicular to the axis of the casing, while the number of holes in each row is at least three, in this case, the casing and the nozzle form among themselves several coaxial inner chambers: cylindrical and located between them, a conical chamber, moreover, one of the cylindrical chambers serves to supply the sprayed liquid, and the conical chamber and cylindrical are expansion chambers and in the central part of the nozzle, a tube for supplying air (gas) is coaxially fixed to it, to one of the ends of which, in its lower part, a hollow disk is fixed with perforation facing the outlet sections of the nozzle throttle openings.

The drawing shows a diagram of a pneumatic liquid atomizer.

The pneumatic liquid atomizer contains a hollow body, consisting of a cylindrical part 1 with an external thread for connecting to the nozzle of the distribution pipe for supplying liquid, and two hollow cylindrical-conical belts 9 and 10. Coaxial to the body, in its lower part, fixed nozzle 2, made in the form of a glass, in the bottom of which there are vertical 8 and inclined 7 throttle openings at an angle of 45 ° to the axis of the nozzle. In the cylindrical belt 9 of the housing, at least one row of radial holes 6 is made, the axes of which lie in a plane perpendicular to the axis of the housing, and the number of holes in each row is at least three. The housing and the nozzle form between each other several coaxial inner chambers: cylindrical 3 and 5 and a conical chamber 4 located between them. The cylindrical chamber 3 serves to supply the sprayed liquid, the conical chamber 4 and the cylindrical 5 are expansion chambers.

In the central part of the nozzle 2, a tube 11 for supplying air (gas) is fixed coaxially to it, to one of the ends of which, in its lower part, a hollow disk 12 is fixed with a perforation 13 facing the exit sections of the throttle holes 7 and 8 of the nozzle 2.

It is possible that the perforation 13 in the hollow disk 12 is made facing the outlet cross sections of the throttle holes of the nozzle 2 in the form of a helical groove formed by the Archimedes spiral 14 located inside the hollow disk 12.

The operation of the liquid atomizer is as follows.

The pneumatic sprayer is installed in an upright position. When liquid is supplied to the housing under the action of a pressure drop of 0.4 ... 0.8 MPa, capillary turbulent fluid flows are formed in the vertical, inclined and radial throttle openings, rushing towards the outlet sections of these openings, and a fan-shaped finely dispersed stream is formed, i.e. a mechanism for crushing liquid droplets is implemented. Such a distribution of the sprayed liquid makes it possible to increase the uniformity of the spraying of the liquid over the central part of the irrigated surface.

When air (gas) is supplied under pressure, it is directed through the cavity of the tube 11 to the hollow disk 12 with perforation 13 and through the perforation 13 it goes out to meet the fluid flows flowing from the outlet sections of the throttle holes 7 and 8 of the nozzle 2, which leads to intensive crushing of the interacting fluid flows and gas and the formation of fine spray.

Perforation 13 in the hollow disk 12, made in the direction of the outlet cross sections of the throttle holes of the nozzle 2 in the form of a helical groove formed by the spiral of Archimedes 14, allows the fluid flow to be crushed by vortices coming from the untwisting helical groove, forming a fine stream of the outgoing fluid.

A variant is possible when, to the end part of the hollow cylindrical-conical belt 9, axisymmetrically to the air supply pipe 11, to one of the ends of which, in its lower part, a hollow disk 12 with perforation 13 is fixed in the form of a helical groove formed by the Archimedes spiral 14, and facing the exit cross sections of the throttle openings of the nozzle 2, a diffuser 15 is attached, and a hollow conical fairing 16 is attached to the solid part of the hollow disk 12, while its apex lies in the cut plane of the diffuser 15, with the formation of output cavities 17 formed by light on the internal surface of the diffuser 15 and the outer surface 16 of the fairing.

A perforated tube 17 is attached to the solid part of the hollow disk 12, axisymmetrically to the air supply pipe 11, the cavity of which is connected to the cavity of the air supply pipe 11, and the fairing 16 is made with perforation 18.

The proposed fine spray can be used in fire fighting equipment, in agriculture, as well as in chemical technology devices.

Claims (2)

1. A pneumatic liquid atomizer comprising a hollow cylindrical body connected to a nozzle in which throttle openings are made, the hollow body consists of a cylindrical part with an external thread for connecting to the nozzle of the distribution pipe for supplying liquid, and two serially connected and coaxial with it, hollow cylindrical-conical belts, and coaxially to the body, in its lower part, a nozzle is made, made in the form of a glass, in the bottom of which there are vertical and inclined throttle openings at an angle 45 ° to the nozzle axis, and at least one row of radial holes is made in the cylindrical belt of the body, the axes of which lie in a plane perpendicular to the axis of the body, with the number of holes in each row equal to at least three, the body and nozzle form several coaxial inner chambers: cylindrical and located between them, a conical chamber, moreover, one of the cylindrical chambers serves to supply the sprayed liquid, and the conical chamber and cylindrical are expansion chambers, and in the center the main part of the nozzle, coaxially fixed to it is a tube for supplying air (gas), to one of the ends of which, in its lower part, a hollow disk is fixed with perforations facing the exit sections of the nozzle throttle openings, characterized in that the perforation in the hollow disk is made facing the outlet cross sections of the nozzle orifice in the form of a helical groove formed by an Archimedes spiral located inside a hollow disk. 2. A pneumatic liquid sprayer according to claim 1, characterized in that to the end part of the hollow cylindrical-conical belt is axisymmetric to the air supply tube, to one of the ends of which, in its lower part, a hollow disk with perforation is fixed in the form of a helical groove formed by the Archimedes spiral and facing the exit cross sections of the nozzle throttle openings, a diffuser is attached, and a hollow conical fairing is attached to the solid part of the hollow disk, while its apex lies in the cut plane of the diffuser, with the formation of output cavities formed by the inner surface of the diffuser and the outer surface of the fairing, and a perforated tube is attached to the solid part of the hollow disk axisymmetrically to the air supply pipe, the cavity of which is connected to the cavity of the air supply pipe, and the cowl is made with perforation.

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