RU2646721C1 - Fluid sprayer - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to spraying of fluids and can be used in fire fighting, agriculture, chemical industry, heat power engineering. It is achieved by the fact that in a fine spray liquid comprising a hollow cylindrical body connected to a nozzle, where jets are made in mutually perpendicular planes, the hollow body consists of a cylindrical part with an external thread for connection to the connection of a distributing pipeline that supplies liquid, a conical transition part and a cylindrical part with a large diametrical cross-sectional dimension, and with an internal threaded surface, but coaxially to the body, in its lower part the nozzle formed by a cylindrical surface with an external thread interacting with a cylindrical part of the body, besides the cylindrical surface of the nozzle passes into a conical surface and closes the end, perpendicular to the axis of the body, with a jet in its center, made with an axisymmetric nozzle and consisting of a cylindrical and conical throttle holes connected in series, besides a larger diameter of the conical opening is located on the blind partition of the nozzle, wherein the body and the nozzle forming three coaxial inner cylindrical chambers, and on the nozzle, from the side opposite to the liquid supply, an additional row of jets is formed which are formed by at least three pairs of mutually perpendicular vertical channels for passage of liquid and horizontal channels, that intersect on the conical side surface of the nozzle and form the outlets of each of the nozzle, wherein the pair channels are at right angles to each other in the longitudinal planes of the housing, and the conical side surface of the nozzle is formed with an apex angle of 90°.

EFFECT: high efficiency of liquid atomizing.

3 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 sprayer (sprinkler) according to patent RU No. 2474452, A62C 31/02, - (prototype), containing a hollow cylindrical body with a nozzle for supplying liquid nozzle and an additional row of throttle openings.

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, 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 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 atomizer containing a hollow cylindrical body connected to a nozzle in which the nozzles are made in mutually perpendicular planes, the hollow body consists of a cylindrical part with external thread for connecting a conical transitional part to the nozzle of the distribution pipe, and a cylindrical part with a large diameter of the diametrical section, and with an internal threaded surface, and coaxially to the body, in its lower part, a nozzle formed by a cylindrical surface with an external thread interacting with the cylindrical part of the body, while the cylindrical surface of the nozzle goes into a conical surface and closes with the end, perpendicular to the axis of the body, a blank partition, with a nozzle in its center, made by an axisymmetric nozzle and consisting of a cylindrical and conical throttle holes, connected in series, with a larger diameter of the conical hole located on the blind partition of the nozzle, while the casing and the nozzle form three coaxial to each other inside are cylindrical chambers, and on the nozzle, on the side opposite to the fluid supply, an additional row of nozzles is made, which are formed by at least three pairs of mutually perpendicular vertical channels for the passage of liquid and horizontal channels that intersect on the conical lateral surface of the nozzle and form the outlet openings of each from the nozzle, while the paired channels are located at right angles to each other in the longitudinal planes of the housing, and the conical side surface of the nozzle is made with an angle at A peak equal to 90 °.

The drawing shows a diagram of a liquid atomizer.

The liquid spray contains a hollow body, consisting of a cylindrical part 1 with an external thread for connection to the nozzle of the distribution pipe for supplying liquid, a conical transition part 2 and a cylindrical part 3 with a large diameter cross-section, with an internal threaded surface.

Coaxial to the casing, in its lower part a nozzle is fixed, formed by a cylindrical surface 6 with an external thread interacting with the cylindrical part 3 of the casing. The cylindrical surface 6 of the nozzle goes into a conical surface 4 and closes the end, perpendicular to the axis of the housing, a blind partition 5, with a nozzle 10 in its center, made axisymmetric nozzle and consisting of a cylindrical and conical throttle holes connected in series, and the larger diameter of the conical hole is located on blind septum 5 nozzles. At the same time, the nozzle 10, made in the center of the blind partition 5 and consisting of a cylindrical and conical throttle holes, has helical surfaces on the inner surfaces of both the cylindrical and conical throttle holes (not shown in the drawing).

The body and nozzle form three inner cylindrical chambers coaxial with each other. The chamber 7 serves to supply fluid, the chamber 8 is an expansion chamber, the chamber 9 performs the functions of a pressure chamber of increased pressure.

An additional row of nozzles is made on the nozzle, from the side opposite the fluid supply, which are formed by at least three pairs of mutually perpendicular vertical channels 12 for the passage of liquid and horizontal channels 11, which intersect on the conical side surface 4 of the nozzle and form the outlet openings of each nozzle . In this case, the vertical channels 12 are connected to the cavity of the expansion chamber 8, and the horizontal channels 11 are connected to the cavity of the injection chamber 9.

Paired channels 11 and 12 are located at right angles to each other in the longitudinal planes of the housing. The conical side surface 4 of the nozzle is made with an angle at the apex equal to 90 °.

On the inner surfaces of the channels of the nozzle nozzles 4, which intersect on the conical lateral surface of the nozzle and which are formed by at least three pairs of mutually perpendicular vertical channels 12 for the passage of fluid and horizontal channels 11, screw surfaces are made, while the direction of the screw surfaces in these channels is opposite directional. This allows you to increase the fineness of the sprayed liquid due to the interaction of the vortex flows at the outlet of the nozzles.

A variant is possible when three inner cylindrical chambers formed by the body and nozzle are interconnected, one of which (chamber 7) serves to supply fluid, the other (chamber 8) is an expansion chamber, and the third (chamber 9) serves as a pressure chamber, filled with an elastic mesh element, or non-ferrous metal chips, or plastic chips (not shown in the drawing). A diffuser 13 is attached to the end surface of the cylindrical part 3 of the housing, covering the conical surface 4 of the nozzle with a blank partition 5 and a nozzle 10.

The operation of the liquid atomizer is as follows.

The 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, oncoming channels of liquid are formed in channels 11 and 12, rushing to the outlet openings of the nozzles formed by these channels.

After the collision of fluid flows in channels 11 and 12 and outflow through the nozzle outlet openings, a fan-shaped gas-liquid flow in the form of a shroud is formed, i.e. a mechanism for crushing liquid droplets is implemented, but the generated swell-like flow deviates from the horizontal plane by a larger angle, in the range from 45 to 60 °, in the direction of the central region of the irrigated surface located directly under the nozzle 10 in the blind partition 5 of the atomizer. 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.

The proposed sprayer can be used in fire fighting equipment, for example, as part of sprinkler or deluge fire extinguishing systems, in agriculture - for spraying various types of substances on sown areas and in industrial premises, as well as in chemical technology devices and in the power system - for spraying fuel, and in engineering industries where the generation of atomized finely dispersed fluid flows is required both in closed and open spaces.

It is possible that in the output section of the diffuser 13, attached to the end surface of the cylindrical part 3 of the housing, a perforated partition 14 is installed, to which at least two spokes 15 and 16, the second end of which are fixed at one point at its intersection with the axis of the sprayer mounted on the inner surface of the diffuser 13 in such a way that the spokes 15 and 16 are perpendicular to the inner surface of the diffuser 13, and additional sprays made in the form of a screw are freely mounted on the spokes in their central part x drums 17 and 19, which are fixed on the spokes using the stops 18 and 20.

It is possible that in the output section of the diffuser 13, between the perforated partition 14 and the additional nozzles fixed to it by the needles 15 and 16, made in the form of screw drums 17 and 19, fixed on the spokes with the stops 18 and 20, a perforated conical shell 21 is installed , the top of the conical surface of which is fixed on the perforated partition 14, at the point of its intersection with the axis of the sprayer.

It is possible that the cavity between the perforated conical shell 21, the top of the conical surface of which is fixed on the perforated partition 14, at the point of intersection with the axis of the spray gun and the surface of the perforated partition 14, is filled with an elastic mesh element, or non-ferrous metal shavings, or plastic shavings, which increases the fineness of the sprayed liquid phase.

Claims (3)

1. A liquid atomizer comprising a hollow cylindrical body connected to a nozzle in which nozzles are made in mutually perpendicular planes, the hollow body consists of a cylindrical part with external thread for connecting to the nozzle of the distribution pipe supplying liquid, a conical transition part and a cylindrical part with a large the diameter of the diametrical section, and with an internal threaded surface, and coaxial to the body, in its lower part is fixed a nozzle formed by a cylindrical surface with an external th thread interacting with the cylindrical part of the body, while the cylindrical surface of the nozzle goes into a conical surface and closes the end, perpendicular to the axis of the body, a blank partition, with a nozzle in its center, made by an axisymmetric nozzle and consisting of a cylindrical and conical throttle holes connected in series, moreover, the larger diameter of the conical hole is located on the blind partition of the nozzle, while the casing and the nozzle form three inner cylindrical coaxial with each other amers, and on the nozzle, from the side opposite to the fluid supply, an additional row of nozzles is made, which are formed by at least three pairs of mutually perpendicular vertical channels for the passage of liquid and horizontal channels that intersect on the conical lateral surface of the nozzle and form the outlet openings of each nozzle while paired channels are located at right angles to each other in the longitudinal planes of the housing, and the conical lateral surface of the nozzle is made with an angle at the apex of 90 °, and the nozzle p, made in the center of the blind partition and consisting of a cylindrical and conical throttle holes, has helical surfaces on the inner surfaces of both cylindrical and conical throttle holes, while on the inner surfaces of the nozzle nozzle channels that intersect on its conical side surface and which are formed at least three pairs of mutually perpendicular vertical and horizontal channels for fluid passage, helical surfaces are made, with this direction the screw surfaces in these channels are made oppositely directed, and three inner cylindrical chambers formed by the body and nozzle, one of which serves to supply fluid, the other is an expansion chamber, and the third acts as an injection chamber of increased pressure, filled with an elastic mesh element, or non-ferrous metal shavings, or plastic shavings, and a diffuser is attached to the end surface of the cylindrical part of the housing, covering a conical surface the nozzle with a blank partition and a nozzle, characterized in that in the output section of the diffuser attached to the end surface of the cylindrical part of the housing, there is a perforated partition to which at least two spokes are fixed at one point at its intersection with the axis of the nozzle, the second the end of which is fixed on the inner surface of the diffuser so that the spokes are perpendicular to the inner surface of the diffuser, and additional sprays are freely installed on the spokes in their central part, Making a screw in the form of drums, which are fixed to the spokes by means of stops. 2. The liquid sprayer according to claim 1, characterized in that in the outlet cross section of the diffuser, between the perforated baffle and additional sprays fixed to it by means of spokes, made in the form of screw drums fixed on the spokes with the help of stops, a perforated conical shell, the top of the conical the surface of which is fixed on a perforated partition, at the point of its intersection with the axis of the atomizer. 3. The liquid sprayer according to claim 1, characterized in that the cavity between the perforated conical shell, the top of the conical surface of which is fixed on the perforated partition, at the point of its intersection with the axis of the sprayer, and the surface of the perforated partition, is filled with an elastic mesh element or colored shavings metal, or plastic shavings, which increases the fineness of the phase of the sprayed liquid.

Images