RU2646187C1 - Pneumatic nozzle - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to spraying of fluids and can be used in fire fighting, agriculture, in chemical industry etc. This is achieved by the fact that in a pneumatic nozzle comprising a body with supply of atomized liquid and gas, jet-guiding device and sprayer, the housing is made in the form of an inverted cup, in the bottom of which a threaded opening is made for fixing the axial symmetric body of the central cylindrical insert with central axial channel of jet directing device for supply of sprayed liquid, and in body side surface, perpendicular to its axis, at least, one opening for air (gas) under pressure supply is made, which is connected to an annular chamber formed by central cylindrical insert outer surface and housing inner surface, and to the inner side surface of the body, in its lower part, a jet-guiding device cylindrical sleeve is fixed for gas supply under pressure to sprayer by means of annular gap, formed by outer surface of central cylindrical insert and inner surface of sleeve, wherein annular gap is connected to annular chamber, and to central cylindrical insert sprayer is coaxially fixed, made in the form of a conical flaring, in the lower part of which, perpendicular to its axis, end round plate is rigidly fixed with, at least, three conical throttling openings with apex angle of cone, lying in the range from 45 to 90°, wherein at least two rows of cylindrical throttling openings are made on the lateral surface of the flaring, with axes lying in planes perpendicular to the axis of the flaring, and in each row at least three holes are made, and between the central axial channel of the central cylindrical insert and the flaring a perforated disk is fixed, and a hollow conical swirler is installed in the flaring, which conical surface vertex rests against a perforated disk, and the base lies on the flaring end-face round plate, wherein on the hollow conical swirler conical surface a helical through thread is made.

EFFECT: high efficiency of liquid atomizing.

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. 2474451, А62С 31/02 - prototype) 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, the sprayer of this design does not allow to achieve the specified distribution of the flows of fine droplets on the irrigation surface of the required area without increasing the flow rate of the liquid due to the absence of the gas component of the turbulent flow of the two-phase mixture.

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

This is achieved by the fact that in a pneumatic nozzle containing a housing with a supply of sprayed liquid and gas, a jetting device and a sprayer, the housing is made in the form of an inverted cup, in the bottom of which there is a threaded hole for mounting an axisymmetric housing, a central cylindrical insert with a central axial channel of the jetting device for supplying the sprayed liquid, and in the side surface of the housing, perpendicular to its axis, at least one hole for supplying air (g j) under pressure, which is connected to the annular chamber formed by the outer surface of the central cylindrical insert and the inner surface of the housing, and to the inner side surface of the housing, in its lower part, a cylindrical sleeve of the flow directing device for supplying gas under pressure to the atomizer via an annular gap is attached, formed by the outer surface of the central cylindrical insert and the inner surface of the sleeve, while the annular gap is connected to the annular chamber, and to the central A nozzle made in the form of a conical bell is coaxially mounted on the cylindrical insert, in the lower part of which, perpendicular to its axis, a circular end plate is rigidly attached with at least three conical throttle openings with an angle at the top of the cone lying in the range from 45 to 90 °, at the same time, at least two rows of cylindrical throttle holes are made on the lateral surface of the socket, with axes lying in planes perpendicular to the axis of the socket, and at least three holes are made in each row a hole, and between the central axial channel of the central cylindrical insert and the bell, a perforated disk is fixed, and a hollow conical swirl is installed in the socket, the top of the conical surface of which abuts the perforated disk, and the base lies on the end round plate of the socket, while on the conical surface of the hollow conical swirl made through screw thread.

The drawing shows a structural diagram of a pneumatic nozzle.

The pneumatic nozzle contains a housing 6 made in the form of an inverted cup, in the bottom of which a threaded hole 2 is made for fastening to an axisymmetric housing 6, a central cylindrical insert 1 with a central axial channel 3 of a flow guide device for supplying the sprayed liquid, and in the side surface of the housing 6, perpendicular to it axis, made at least one hole 8 for supplying air (gas) under pressure, which is connected to the annular chamber 13, formed by the outer surface of the Central cylindrical insert 1 and the inner surface of the housing. A cylindrical sleeve 9 of the jetting device for supplying air (gas) under pressure to the atomizer is attached to the inner side surface of the housing 6, in its lower part, by means of an annular gap 10 formed by the outer surface of the central cylindrical insert 1 and the inner surface of the sleeve 9, while the annular gap 10 is connected to the annular chamber 13. To the central cylindrical insert 1 is a coaxially mounted atomizer made in the form of a conical socket 4, in the lower part of which, perpendicular to its axis, w The circular end plate 5 is firmly attached with at least three conical throttle holes 12 with an angle at the top of the cone lying in the range from 45 to 90 °. At least two rows of cylindrical throttle holes 11 are made on the side surface of the socket, with axes lying in planes perpendicular to the axis of the socket 4, and at least three holes are made in each row.

A perforated disk 14 is fixed between the central axial channel 3 of the central cylindrical insert 1 and the socket 4, and a hollow conical swirl 15 is mounted in the socket 4, the top of the conical surface of which abuts the perforated disk 14 and the base rests on the end round plate 5 of the socket 4. On the conical surface of the hollow conical swirl 15 is made through screw thread 16.

Pneumatic nozzle operates as follows.

Liquid under pressure is supplied through an axial channel 3 made in the central cylindrical insert 1 to the atomizer in the form of a conical socket 4, from which part of the liquid flows out in the horizontal direction through the radial holes 11, and part in the vertical direction through the conical throttle holes 12. Air under pressure it is fed through holes 8 into the annular chamber 13, and from it to the atomizer by means of an annular gap 10. In this case, multiple dropping of liquid droplets flowing from the throttle occurs th holes. 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, for example, in stationary fire extinguishing systems, and also 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 (1)

A pneumatic nozzle containing a housing with a supply of sprayed liquid and gas, a jetting device and a sprayer, the housing is made in the form of an inverted cup, in the bottom of which a threaded hole is made for fastening to the axisymmetric housing of a central cylindrical insert with a central axial channel of the spraying device for supplying sprayed liquid, and in at least one hole for supplying air (gas) under pressure, which with connected to the annular chamber formed by the outer surface of the central cylindrical insert and the inner surface of the housing, and to the inner side surface of the housing, in its lower part, is attached a cylindrical sleeve of the flow directing device for supplying gas under pressure to the atomizer through an annular gap formed by the outer surface of the central cylindrical insert and the inner surface of the sleeve, while the annular gap is connected to the annular chamber, and to the Central cylindrical insert an atomizer made in the form of a conical socket is fixed coaxially, in the lower part of which, perpendicular to its axis, an end circular plate with at least three conical throttle openings with an angle at the top of the cone lying in the range from 45 to 90 ° is rigidly attached, at least two rows of cylindrical throttle holes are made on the side surface of the bell, with axes lying in planes perpendicular to the axis of the bell, and at least three holes are made in each row, characterized in that I am waiting for the central axial channel of the central cylindrical insert and a perforated disk to be fixed in the socket, and a hollow conical swirl is installed in the socket, the top of the conical surface of which abuts the perforated disk, and the base lies on the end round plate of the socket, while a through screw is made on the conical surface of the hollow conical swirl cutting.

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