RU2631276C1 - Liquid flow ejector-type spreader by kochetov - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: liquid flow splitter is mounted on the end surface of a union nut axially symmetrical to the body and comprises three coaxial pyramidal shells that are coaxially arranged in the form of generating grids: external, intermediate and internal ones. Each of the shells comprises a wire frame of two bases in the form of a square and side ribs of a truncated pyramidal surface. The outer shell is fixed with the larger base to the body. The second smaller base of the outer shell is at the same time the larger base of the intermediate shell with the side ribs. The smaller base of the intermediate shell is at the same time the larger base of the inner shell with a smaller base. The generating grids in the form of truncated pyramidal surfaces are arranged so that all their vertices lie on a axis coinciding with axis of the body. The direction of the vertices of the outer and inner generating grids coincides. The vertex of the intermediate generating grid is directed opposite to vertices of the outer and inner generating grids, in this case, towards a throttle spacer with a spray nozzle. The perforation on the outer shell from side of its truncated pyramidal surface attachment to end face surfaces of the union nut is made with smaller pitch and larger diameter of holes contributing to intensification of ejection effect. The perforation of the inner shell on the base facing towards the throttle spacer with the spray nozzle and made in the form of a square, has larger diameter of holes contributing to intensification of ejection effect and the range of the sprayed flow.

EFFECT: increased efficiency of liquid fine dispersion.

2 cl, 2 dwg

Description

The invention relates to techniques for spraying a liquid.

The closest technical solution to the claimed object is a liquid flow divider according to patent RU No. 2450837, А62С 31/02 (prototype), containing a hollow cylindrical body with a throttle washer connected to a union nut to which the liquid flow divider is mounted, made in the form of two in series connected meshes, one of which has the shape of a circle, and the other hemisphere.

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

This is achieved by the fact that in the ejection-type liquid flow divider for the nozzle, which contains a hollow body, consisting of a cylindrical part with an external thread for connecting to the nozzle of the distribution pipe for fluid supply, and a union nut fixed to the lower part of the body with the liquid flow divider, and in the housing, coaxially to it, a cylindrical hole is made, in the upper part of which a strainer is installed, and in the lower part - a throttle washer with a nozzle, to the end surface of the union nut, axis symmetrically to the body, a liquid flow divider is attached, which consists of three coaxial, coaxially arranged pyramidal shells in the form of generating grids: external, intermediate and internal, each shell containing a wire frame of two bases in the form of a square and side edges of a truncated pyramidal surface, this outer shell is attached to the body with a large base, and its second smaller base is simultaneously a large base of the intermediate shell with side ribs, and its smaller base At the same time, the base is the large base of the inner shell with a smaller base, and the generating grids in the form of truncated pyramidal surfaces are located in such a way that all their vertices lie on an axis coinciding with the axis of the body, and the direction of the vertices of the external and internal generating grids coincides, and the vertex of the intermediate generating the grid is directed opposite to the vertices of the external and internal generating grids, and toward the throttle washer with a jet.

In Fig.1 presents a diagram of a divider flow of liquid ejection type assembly with a nozzle, Fig.2 is a General view of the divider.

Ejection-type liquid flow divider for the nozzle, which contains a hollow body 1, consisting of a cylindrical part with an external thread for connection to the nozzle (not shown) of the distribution pipe for fluid supply, and a union nut 6 attached to the lower part of the body with the flow divider 7 liquids. In the housing 1, coaxially to it, a cylindrical hole 2 is made, in the upper part of which a strainer 4 is installed, and in the lower part - a throttle washer 3 with a nozzle 5.

A divider 7 is mounted to the end surface of the union nut 6, axisymmetrically to the housing 1, which consists of three coaxial pyramidal shells 8, 9, 10 coaxially arranged in the form of generating grids: external 8, intermediate 9 and internal 10. Each of the shells contains a wire frame of two bases in the form of a square and side edges of a truncated pyramidal surface. The outer shell 8 with a large base is attached to the union nut 6, and its second smaller base is simultaneously a large base of the intermediate 9 shell with side ribs, and its smaller base is simultaneously a large base of the inner 10 of the shell with a smaller base. Generating grids in the form of truncated pyramidal surfaces are arranged in such a way that all their vertices lie on an axis coinciding with the axis of the housing 1, and the direction of the vertices of the outer 8 and inner 10 of the generating grids coincides, and the vertex of the intermediate 9 generating grid is opposite to the vertices of the outer 8 and inner 10 generating grids, and towards the throttle washer 3 with nozzle 5.

Perforation on the outer shell 8, from the side of the fastening of its truncated pyramidal surface to the end surface of the union nut 6, is made with a smaller pitch and a large diameter of the holes, contributing to the enhancement of the ejection effect.

Perforation of the inner shell 10 on the base, facing away from the throttle plate 3 with the nozzle 5 and made in the form of a square, has a larger diameter of the holes, contributing to the enhancement of the ejection effect and the range of the sprayed stream.

The ejection-type liquid flow divider for the nozzle operates as follows.

At the beginning of the formation of the torch, the sprayed liquid stream has the highest speed and when it hits the generating grid, foam is formed with small air bubbles (2–3 mm across), due to air ejection through the grids 8, 9, 10 of the divider 7, and away from of jet 5, the speed of the jet decreases, and then foam forms with larger bubbles (4 ÷ 12 mm across) of air on the mesh. Thus, the divider produces polydisperse (differently sized for bubbles) foam, which has the property of rapid spreading over the surface. Obtaining foam is carried out according to the principle of ejection of air by sprayed jets of liquid in the divider 7.

It is possible that the external 8, coaxially located pyramidal shell of the liquid flow divider, made in the form of a generating grid, is limited at the output by a perforated plate 11, rigidly connected to the output section of the shell 8.

The proposed design of the nozzle divider can be used as a fine spray gun 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 , as well as in industries where generation of atomized fine-dispersed fluid flows is required both in closed and open spaces states.

Claims (2)

1. Ejection-type liquid flow divider, which contains a hollow body, consisting of a cylindrical part with an external thread for connecting to the nozzle of the distribution pipe for fluid supply, and a union nut with a liquid flow divider fixed to the lower part of the body, and cylindrical an opening, in the upper part of which a strainer is installed, and in the lower part - a throttle washer with a jet, characterized in that the axis of the nut is axisymmetrical to the housing a fluid flow divider is attached, which consists of three coaxial, coaxially arranged pyramidal shells in the form of generating grids: external, intermediate and internal, each shell containing a wire frame of two bases in the form of a square and side edges of a truncated pyramidal surface, while the outer the shell is attached with a large base to the body, and its second smaller base is simultaneously the larger base of the intermediate shell with side ribs, and its smaller base is about at the same time, with a large base of the inner shell with a smaller base, and the generating grids in the form of truncated pyramidal surfaces are arranged in such a way that all their vertices lie on an axis coinciding with the axis of the housing, and the direction of the vertices of the external and internal generating grids coincides, and the vertex of the intermediate generating grid is directed opposite to the vertices of the external and internal generating grids, and towards the throttle washer with a jet, while the perforation on the outer shell from the side of its fastening the cross-section of the pyramidal surface to the end surface of the union nut is made with a smaller pitch and a large diameter of the holes to enhance the ejection effect, the perforation of the inner shell on the base, facing away from the throttle washer with the nozzle and made in the form of a square, has a larger diameter of the holes to enhance ejection effect and range of the sprayed stream. 2. The ejection type liquid flow divider according to claim 1, characterized in that the external coaxially located pyramidal shell of the liquid flow divider, made in the form of a generating grid, is limited at the outlet by a perforated plate rigidly connected to the outlet cross section of the shell.

Images