RU2578572C1 - Pneumatic nozzle - Google Patents

Abstract

FIELD: energy.

SUBSTANCE: invention relates to sprayers of liquid fuel and can be used in heat engineering. Pneumatic sprayer comprises hollow case accommodating nozzle for liquid fuel, axial channel of tip is made blind from its outlet part, and on side surface of housing there are radial holes for supply of sprayer in annular channel formed by outer surface of tip and housing inner surface of housing there is adapter, made in form of de Laval nozzle. At that, supply of sprayer in expanding part of nozzle is performed through annular gap formed by outer surface of tip and internal surface of nozzle head, and liquid fuel-through radial holes made in outlet part of tip, in this version at adapter end there is axial hole.

EFFECT: device for spraying of liquid fuel.

2 cl, 3 dwg

Description

The invention relates to a device for spraying liquid fuel and can be used in the power industry.

One of the main problems that arise when creating devices designed for spraying liquid fuel is to ensure the maximum possible completeness of combustion of liquid fuel.

Known pneumatic nozzle containing a hollow body, inside which is installed a Central tube through which liquid fuel is supplied, and the atomizer (steam or air) - along the annular gap between the Central tube and the housing, while in the outlet of the housing is a nozzle made in the form of a nozzle Laval, with the central tube entering the mouth of the nozzle (L.A. Vitman et al. "Spraying liquid with nozzles", M., State Energy Publishing House, 1962, Fig. 6-31, pp. 148-150 - prototype).

This pneumatic nozzle operates as follows.

Liquid fuel under pressure is supplied through a central tube to nozzles installed in the outlet of the housing. The sprayer is supplied under pressure into the annular gap between the central tube and the body and further into the nozzles through the annular gap between the central tube and the mouth of the nozzle. In the nozzle, the jet of liquid fuel is crushed into the smallest particles that are mixed with the atomizer.

The main disadvantage of this nozzle is that the nozzle does not produce a short flame, and a nozzle that is too long sometimes leads to the sticking of part of the liquid fuel to the walls.

The objective of the invention is to remedy these disadvantages and increase the completeness of combustion of liquid fuel by improving the quality of mixture formation.

The solution to this problem is achieved by the fact that the proposed pneumatic nozzle, according to the invention, contains a hollow body, inside which a tip is installed, through which liquid fuel is supplied, while the axial channel of the tip is made blind from the side of its output part, and radial holes are made on the side surface of the case for supplying a spray to the annular channel formed by the outer surface of the tip and the inner surface of the housing, while nozzles are installed in the outlet of the housing, made as a Laval nozzle, wherein the feed to the atomizer nozzle diverging portion via the annular gap formed by the outer surface of the tip and the inner surface of the mouth of the nozzle and the liquid fuel - through the radial holes formed in the output portion of the tip.

In an embodiment, an axial hole is made at the end of the tip.

The proposed pneumatic nozzle, due to its distinctive features, provides a solution to the technical problem - increasing the completeness of combustion of liquid fuel due to the fact that the liquid fuel entering the pneumatic nozzle is fed by a system of jets into the transverse high-speed stream of the atomizer, which, in turn, leads to improving the quality of mixture formation.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of the nozzle in longitudinal section, in FIG. 2 is a section AA of the nozzle, in FIG. 3 is a longitudinal section of a nozzle in an embodiment.

The proposed nozzle contains a hollow body 1, inside of which a tip 2 is installed. Liquid fuel is supplied to the axial channel 3 of the tip 2 and then to the expanding part of the nozzle 4 through four radial holes 5 made in the outlet of the tip 2. Radial holes are made on the side surface of the housing 1 6 for feeding the spray into the annular channel 7, formed by the outer surface of the tip 2 and the inner surface of the housing 1. The spray is fed into the expanding part of the nozzle 4 through the annular gap 8 formed by the outer surface of the tip 2 and the inner surface of the mouth of the nozzle 4.

In an embodiment, an axial hole 9 is made at the end of the tip 2.

The proposed pneumatic nozzle operates as follows.

Liquid fuel enters the axial channel 3 of the tip 2 and then is distributed between the four radial holes 5. The sprayer enters through the radial holes 6, made on the side surface of the housing 1, into the annular channel 7, and then through the annular gap 8 to the expanding part of the nozzle 4. A jet of liquid fuel exiting from each radial hole 5 is introduced into the transverse high-speed stream of the atomizer, with multiple crushing of droplet liquid flows.

In an embodiment, the liquid fuel entering the axial channel 3 of the tip 2 is distributed between the radial holes 5 and the axial hole 9.

Using the proposed technical solution will increase the completeness of combustion of liquid fuel due to the fact that the liquid fuel entering the pneumatic nozzle is fed by a system of jets into the transverse high-speed stream of the atomizer, which, in turn, improves the quality of mixture formation.

Claims (2)

1. Pneumatic nozzle, characterized in that it contains at least a hollow body, inside of which there is a tip, through which liquid fuel is supplied, while the axial channel of the tip is made blind from the side of its output part, and radial holes are made on the side surface of the case for feeding the spray gun into the annular channel formed by the outer surface of the tip and the inner surface of the housing, while in the outlet of the housing there are nozzles made in the form of a Laval nozzle, the feed p the aspirator into the expanding part of the nozzle is carried out through an annular gap formed by the outer surface of the tip and the inner surface of the mouth of the nozzle, and liquid fuel through radial holes made in the outlet of the tip. 2. The pneumatic nozzle according to claim 1, characterized in that an axial hole is made at the end of the tip.

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