SU1044890A2 - Air-atomizing burner - Google Patents

Abstract

PNEUMATIC SPRAYER 1 av. St. No. 000486, characterized in that, in order to improve the quality of sawing, the swirl on the inner surface has a stepped recess, the step of which is located between the fuel channels and the channels for feeding the sprayer, and the annular gap around the shank is divided into coaxial channels by means of a shell resting on the step excavation notch. (L 4 4 00 (

Description

. The invention relates to a device for sawing liquid fuel and can be used in combustion chambers and various fuel devices.

By main auto No. 800486. A pneumatic nozzle is known, the '-'-containing housing with supply channels, a sprayer, a swirl with tangential fuel channels and a coaxially mounted conical • divider having a cylindrical shank, forming an annular gap with a swirl, and channels for supplying a spray gun are tangentially connected the output section of the annular gap and directed in the direction opposite to the fuel channels, the shank of the divider is made with grooves for additional supply of the sprayer, and in its middle section ene annular recess atomizer section decreases along the flow, the maximum depth is equal to the depth of the grooves to further supply the atomizer, and the conical surface vypolnena'rezonansnaya cavity C1}.

However, the known nozzle is characterized by insufficient sawing quality due to the influence of the back pressure of the fuel pipe and the atomizer in the annular gap on the rate of their expiration. .

The purpose of the invention is to improve the quality of sawing.

This goal is achieved by the fact that in a pneumatic nozzle containing a housing with channels for supplying a spray, a swirl with tangential fuel channels and a coaxially mounted conical splitter having a cylindrical shank forming an annular gap with a swirl, the channels for supplying a spray are tangentially connected to the output section of the annular gap and directed in the direction opposite to the fuel channels, the shank of the divider is made with grooves for additional supply of the sprayer, and on average its section is made an annular recess of decreasing along the flow of the spray section, the maximum depth of which is equal to the depth of the grooves for additional supply of the spray, a resonant cavity is made on the conical surface of the divider, the swirl on the inner surface has a step recess, a step: which is located between the fuel channels and the channels for spraying the sprayer, and the annular gap around the-> shaft of the shank is divided into coaxial channels by the shell, ^ VNIIPI Order 7505/34 Branch of the RFP Patent, based on the stage of extraction of the swirl.

The drawing shows a pneumatic nozzle, a longitudinal section.

The nozzle contains a housing 1 with channels 2 for supplying the atomizer, a swirler 3 with tangential fuel channels 4 and a coaxially mounted conical divider 5 having a cylindrical shank 6, forming an annular slot 7 with the swirler 3, channels 2 for supplying the atomizer are tangentially connected to the outlet section of the annular gap 7 channels 8 and are directed in the direction opposite to the fuel channels 4. The shank 6 of the divider 5 is made with grooves 9 for additional supply of the sprayer, and in its middle section the ring is made the recess 10 of the cross section of the sprayer decreasing along the flow, the maximum depth of which is equal to the depth of the grooves 9 for additional supply of the spray gun. The conical surface of the divider 5 is made of a resonant cavity 11. The swirl 3 on the inner surface has a stepped recess 12, a step 13, which is located between the fuel channels 4 and channels 2 for supplying the atomizer, and the annular gap 7 around the shank 6 is divided into coaxial channels 14 through the shell 15, based on the stage 13 of the recess 12 of the swirler 3.

The nozzle is as follows.

Fuel is supplied to the tangential channels 4, made in a swirler, and in a twisted state is supplied to the annular gap 7, where it flows along the inner wall of the shell 15 and flows out of the nozzle in the form of a uniform fuel film.

The sprayer is fed into the housing 1 'through channels 2 and through channels 8 in the swirler 3 it gets twisted into a recess 12, at the outlet of which it acts on the fuel film, breaking it into droplets.

.The other part of the atomizer enters the grooves 9 and the annular recess 10, through which it is directed to the resonant cavity .1.1. The oscillations generated in the resonance cavity 11 affect the air-fuel mixture, contributing to better sawing quality. Due to the separation of the annular gap 7 by the shell 15 into the coaxial channels 14, the mutual influence of the fuel pressure and the atomizer, which reduce the speed of these components, is eliminated, and also simplifies the regulation of the nozzle parameters.

Claims (1)

(57) PNEUMATIC NOZZLE according to ed. St. No. 800486, characterized in that, in order to improve the quality of sawing, the swirl on the inner surface has a step recess, the step of which is located between the fuel channels and the channels for supplying the atomizer, and the annular gap around the shank is divided into coaxial channels by means of a shell resting on the stage of the recess swirler. SU, 4044890