RU2625847C1 - Liquid flow ejector-type spreader for nozzle - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: liquid flow ejector-type spreader for a nozzle comprises a hollow housing consisting of a cylindrical part with an external thread for connecting a distributing pipeline to the connection for liquid supply and a cap nut fixed to the bottom of the housing with a liquid flow spreader. In the housing, coaxial to it, a cylindrical hole is made, in the upper part of which a mesh filter is installed, and in the lower part - a throttle washer with a jet. To the end surface of the cap nut, axisymmetric to the housing, a liquid flow spreader is mounted, which consists of three coaxial, coaxially located pyramidal shells in the form of generating grids: external, intermediate and internal. Each of the shells comprises a wire frame from two bases of square shape and lateral edges of a truncated pyramidal surface. The external shell is attached to the cap nut by a smaller base, and its second larger base is simultaneously a large base of the intermediate shell with lateral ribs, and the smaller base of the intermediate shell is simultaneously a large base of the internal shell, the smaller base of which is located inside the intermediate shell at a distance from the surface of the common cut of external and intermediate shells. The generating grids in the form of truncated pyramidal surfaces are arranged so that all their vertices of their pyramidal surfaces lay on the axis coinciding with the housing axis. The direction of the vertex of the external generating grid is directed towards the throttle washer with the jet. The perforation on the external shell, on the side of fixing its truncated pyramidal surface to the end surface of the cap nut, is made with a smaller pitch, and a larger diameter of the holes, which enhance the ejection effect. The perforation of the internal shell on the base turned away from the throttle washer with the nozzle, and made in the form of a square, has a larger diameter of the holes, which contribute to the enhancement of the ejection effect and the range of the sprayed stream.

EFFECT: increased fine-dispersed liquid sprayer efficiency.

3 cl, 4 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, the outer shell is attached to the flare nut with a smaller base, and its second larger base is at the same time the larger base of the intermediate shell with side ribs, and less the base of the intermediate shell is simultaneously a large base of the inner shell, the smaller base of which is located inside the intermediate shell at a distance from the surface of the common cut of the outer and intermediate shells, while the generating grids in the form of truncated pyramidal surfaces are located so that all the vertices of their pyramidal surfaces lie on the axis coinciding with the axis of the housing, and the direction of the top of the external generating grid is directed towards the throttle washer with a jet, we perforate on the outer shell, from the side of the fastening of its truncated pyramidal surface to the end surface of the union nut, it is made with a smaller pitch and larger diameter holes to enhance the ejection effect, and the perforation of the inner shell on the base facing away from the throttle washer with nozzle , and made in the form of a square, has a larger diameter of the holes, enhancing the ejection effect and the range of the sprayed stream.

In FIG. 1 is a diagram of an ejector-type liquid flow divider assembly with an nozzle; FIG. 2 is a general view of the divider, in FIG. 3, 4 - options divider.

Ejection-type liquid flow divider for an injector, which contains a hollow body 1, consisting of a cylindrical part with an external thread for connection to a nozzle (not shown) of a distribution pipe for supplying liquid, and, secured in the lower part of the housing, a union nut 6 with a divider 7 fluid flow. 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 is attached with a smaller base to the union nut 6, and its second larger base is simultaneously the larger base of the intermediate 9 shell with side ribs, and the smaller base of the intermediate 9 shell is simultaneously the larger base of the inner 10 of the shell, the smaller base of which is located inside the intermediate 9 of the shell on distance from the surface of the common slice of the outer 8 and intermediate 9 shells. Generating grids in the form of truncated pyramidal surfaces are arranged in such a way that all the vertices of their pyramidal surfaces lie on an axis coinciding with the axis of the housing 1, and the direction of the top of the outer 8 generating grid is directed 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 step 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.

A variant is possible (Fig. 3), when the surface of a common cut of the outer 8 and intermediate 9 shells is made in the form of a perforated spherical surface 11 on which there is a solid surface section 12 located opposite the smaller base of the inner shell 10 and intended for fine spraying of liquid.

A variant is possible (Fig. 4) when the surface of a common cut of the outer 8 and intermediate 9 shells is made in the form of a perforated conical surface 13, on which there is a continuous surface section 14 located opposite the smaller base of the inner shell 10, and intended for fine spraying of liquid.

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 with small air bubbles (2–3 mm across) is formed 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.

The proposed design can be used in industries where generation of atomized finely dispersed fluid flows is required in both closed and open spaces.

Claims (3)

1. Ejection-type liquid flow divider for a 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 fluid flow divider, and coaxially in the body he made a cylindrical hole, in the upper part of which a strainer is installed, and in the lower part - a throttle washer with a nozzle, characterized in that to the end surface of the union nut, metric 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, the outer shell is attached to the union nut with a smaller base, and its second larger base is at the same time the larger base of the intermediate shell with side ribs, and the smaller The development of the intermediate shell is simultaneously a large base of the inner shell, the smaller base of which is located inside the intermediate shell at a distance from the surface of the common cut of the outer and intermediate shells, while the generating grids in the form of truncated pyramidal surfaces are located so that all the vertices of their pyramidal surfaces lie on the axis coinciding with the axis of the housing, and the direction of the top of the external generating grid is directed towards the throttle washer with a jet, moreover perforation on the outer shell, from the side of the fastening of its truncated pyramidal surface to the end surface of the union nut, is made with a smaller pitch and larger diameter holes to enhance the ejection effect, and 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, enhancing the ejection effect and the range of the sprayed stream. 2. The divider according to claim 1, characterized in that the surface of the common cut of the outer and intermediate shells is made in the form of a perforated spherical surface on which there is a continuous surface section located opposite the smaller base of the inner shell and intended for fine spraying of liquid. 3. The divider according to claim 1, characterized in that the surface of the common cut of the outer and intermediate shells is made in the form of a perforated conical surface on which there is a continuous surface section located opposite the smaller base of the inner shell and intended for fine dispersion of liquid.

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