SU377587A1 - MECHANICAL SPRAYER - Google Patents

Description

one

The invention relates to burners and can be used in the combustion of liquid fuels in a power system, in boiler plants and process furnaces.

The quality of operation of burners during the combustion of liquid tolly largely depends on the correspondence of the fields of distribution of fuel and oxidizer (air) in the initial section of the flame. In slot-type burners, the best fit of distribution fields occurs when flat-spray nozzles are used.

Mechanical nozzles are known, comprising a housing with a swirl chamber and an output nozzle.

To obtain a flat torch without degrading the quality of the spray in the proposed nozzle, the nozzle has an oval shape, e.g. elliptical, with a ratio of the length of the major axis of the ellipse to the short length equal to l, l-f-5.0.

The drawing shows the described nozzle, a longitudinal section, and view along arrow A.

The nozzle includes a housing / with a swirl chamber 2 and an output nozzle 3, an insert 4 and a latch 5 in position.

Fuel under pressure through tangential channels enters the chamber 2 swirls,

in which a steady vortex-like motion of a fluid is formed. From the swirl chamber fuel enters the nozzle 3 of the sprayer. In the salt, the centroelectronic force is pressed against the limiting wall, and at the exit of the nozzle a drop of sprayed liquid is distributed at an angle to the nozzle axis. If the nozzle is round and the tangential velocity is constant around the nozzle, then the centrifugal forces are the same in all directions and the torch is formed as a cone with a circular base. If the nozzle has an oval shape, then the centrifugal forces acting on the liquid in the region of the greater curvature of the nozzle (at the ends of the major axis B) are much larger than in the area of the minor curvature (at the ends of the minor axis B). Therefore, the angle of the torch in the direction of the major axis is greater than in the direction of the minor axis. The angle in the direction of the major axis can be 4--5 times larger than in the direction of the minor axis (for example, 140 and 30 °). In this case, the torch is formed in the form of a cone with an oval base and is practically a flat torch.

In the flat-nozzle mechanical nozzles, very high uniformity of irrigation density can be obtained in sections parallel to the major and minor axis of the oval. If necessary, irrigation density

in the directions of the major and minor axes, it can be changed using a special insert 4 installed along the axis of the nozzle.

Subject invention

A mechanical nozzle comprising a housing with a swirl chamber and an output nozzle, characterized in that, in order to obtain a flat plume without degrading the atomization quality, the nozzle has an oval shape, for example elliptical, with a ratio of the length of the major axis to the length of a small one equal to 1, 0 .