SU1069865A1 - Injector - Google Patents

Abstract

1. A SPRAYER containing a fluid supply pipe ends up with a sleeve with radial holes and a bottom, and encloses its air duct, characterized in that, in order to increase the dispersion of the aerosol by double spraying, it is equipped with an annular fitting installed coaxially on the sleeve radial holes in the inner wall that coincide with the holes in the sleeve, while the inlet of the annular nozzle is facing in. the air channel, and the output channel is perpendicular to it. 2. The POP.1 nozzle, which, in order to ensure regulation by the degree of dispersion of the aerosol by changing the size and shape of the orifice, the annular branch pipe is mounted on the sleeve with the possibility of axial displacement. ) idkost1) -, - 4 ChuvL. S O I ay il I ate tb "a 5

Description

The invention relates to devices designed to produce aerosols, and can be used in aircraft engine building, such as gas turbine engines, and in the chemical industry.

A hydraulic jet nozzle is known, which is a nozzle with a cylindrical nozzle, from which a jet of liquid flows out, disintegrating into droplets and forming a torch with a considerable distance of the C jet.

Hydraulic spraying with the help of jet nozzles is the most concise and simple, however, the pacnfcart created at the same time is quite coarse and not uniform. In addition, it is difficult to control the flow rate for a given crushing quality, as well as to spray highly viscous liquids. .

A centrifugal nozzle is also known, which comprises a nozzle in which a swirl of liquid supplied through the nozzle is created.

In the nozzle channel along its wall, the fluid moves in the form of a rotating film, and the so-called air vortex fills the center. When flowing out of the nozzle, the liquid film disintegrates, forming a torch in the form of a hollow cone C2 3.

The disadvantages of centrifugal nozzles include relatively coarse spray, the complexity of manufacturing nozzles, the possibility of dispersing only low-viscosity liquids.

The closest to the proposed technical essence and the achieved result is a nozzle containing a pipeline for supplying liquid, ending with a sleeve with radial holes and a bottom, and its airway channel Z.

However, the known nozzle is characterized by an insufficiently high quality of spraying of the liquid, since it only realizes a single impact of the air flow on the sprayed liquid and does not ensure the control of the cross section and shape of the liquid jets flowing out of the holes.

The most effective effect on the process of spraying a pneumatic nozzle liquid is the relative velocity of the droplets (the velocity of the droplets relative to the air at the time of the start of the blending). Thus, the relationship between the median droplet diameter and their relative velocity is expressed by the following relationship:

-one.

where d / is the median droplet diameter / 1x) is the relative velocity

drops.

It can be seen that the median diameter of the droplets will be all the less, and consequently, the quality of spraying is higher, the greater the relative speed of the droplets ..

In order to achieve a fine spray, it is necessary to ensure a certain ratio between the mass flow rate of air entering the atomization and the mass flow rate of the sprayed liquid. The more

5 this is a relationship, the quality of splitting is higher.

Known nozzle can not provide a sufficiently large value of the relative velocity, since

The Q rates of fluid and air flow are determined by differential and hydraulic local pressure losses at flow.

It is also difficult to supply a large amount of air for disintegration in this nozzle due to hydraulic losses, i.e. the mass flow rate of air and liquid can not be large enough. Consequently, the limitations on the increase in the relative velocity of the liquid droplets and the ratio of the mass flow rates of air and liquid will affect the quality of squeezing of the liquid. In addition, the organ for piloting the knitting process of the ni: the change in the size of the annular gap by axial displacement of the tube is not very effective. This is due to the fact that the regulation of the spraying process is carried out by changing one parameter — the thickness of the liquid film.

The purpose of the invention is to increase the dispersion of aerosol by spraying twice.

This goal is achieved by the fact that a nozzle containing a pipeline for supplying a liquid, ending with a sleeve with radial holes and a bottom, and encompassing its air duct, is provided with an annular nozzle installed coaxially on the sleeve with radial holes in the inner wall coinciding with the holes in the sleeve , while the inlet of the annular pipe is turned into the air channel, and the outlet is perpendicular to it.

In addition, to ensure regulation by the degree of dispersion, the aerosol by changing the size and shape of the through section of the openings by a ring is mounted on the sleeve

With the possibility of axial movement.

The drawing shows the nozzle section.

The nozzle contains a fluid supply pipe 1. ending with a sleeve 2 with radial holes 3 and a bottom 4, on which the annular branch pipe 5 with radial holes 6 in the inner wall is coaxially mounted with axial movement and the inlet opening 1 facing the air channel (shown with arrow keys) and a HBIM outlet with an opening 8 perpendicular to the air channel.

The nozzle works as follows. .

When fluid is supplied through conduit 1 to sleeve 2, the liquid passes through openings 3 of sleeve 2 and openings 6 into the cavity of pipe 5 in the form of streams, where it is crushed by incoming air flow through opening 7. Formed

the aerosol is accelerated and discharged through the outlet 8 perpendicular to the incoming air flow and is again crushed.

The spraying process is controlled by turning the threaded joint connected to the sleeve 2 and the bolt 9 pivotally connected to the bottom 4, the rotation of which causes the axial movement of the nozzle 5 relative to the sleeve 2 and changes the incoming section for the liquid streams. To avoid rotation of the sleeve 2 relative to the pipe 5, a protrusion 10 is provided on the sleeve 2, and a 5 groove 11 in the pipe.

The proposed nozzle is characterized by constructive simplicity, manufacturability, and allows creating an aerosol in a large air volume.

Claims (2)

1. NOZZLE containing a fluid supply pipe ending with a sleeve with radial holes and a bottom, and covering its air duct, characterized in that, in order to increase the dispersion of the aerosol by double spraying, it is equipped with an annular nozzle mounted coaxially on the sleeve with radial holes in the inner wall matching the holes in the sleeve, with the inlet of the annular pipe facing in. the air channel, and the outlet is perpendicular to it. 2. The nozzle according to claim 1, characterized in that, in order to provide control of the degree of dispersion of the aerosol by changing the size of the th form of the orifice of the holes, the annular nozzle is mounted on the _ sleeve with the possibility of axial movement.