SU954706A1 - Air-atomizing burner - Google Patents

Description

(54) PNEUMATIC NOZZLE

one

The invention relates to the energy sector and can be used for burning liquid fuel, mainly in thermal engineering devices for the production of heat-treated tire cord and cord fabrics.

A pneumatic nozzle comprising an air supply housing, the axis of which is fitted with a fuel tube, is connected to the swirl chamber with an outlet nozzle, tangential holes in the side wall with the housing cavity, and a sleeve is mounted on the periphery of the chamber to form an annular channel. body stabilizer 1.

A disadvantage of the known nozzle is the low combustion efficiency due to the instability of the flare.

The purpose of the invention is to increase the efficiency of combustion by increasing the stability of the flare.

This goal is achieved by the fact that the annular channel in the area of the exit nozzle of the swirl chamber is cylindrical in shape, and the stabilizer is mounted

relative to the housing with a gap and with the possibility of longitudinal movement.

FIG. 1 depicts the proposed nozzle, a longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. one.

The nozzle includes an air supplying housing 1, along the axis of which a fuel pipe 2 is installed, connected to the swirl chamber 3 with an output nozzle 4, communicated by tangential openings 5 with the cavity of the housing 1, and a sleeve 7 is mounted along the periphery of the camera 3 to form an annular channel 6, and at the front end of housing 1 there is a stabilizer 8 with a gap of 9 relative to the last and with the possibility of longitudinal movement. At the entrance to the swirl chamber 3, a throttle 10 is installed, and on the periphery of the housing 1 - a conical fairing 11.

When the nozzle is operating, the fuel through the choke 10 will expire into the chamber 3 for vortexes. Part of the air entering the atomization is directed through the tangential openings 5 into the 3-avirivating chamber 3, spinning the fuel jet, and the other part by an annular flow through the annular channel

6 enters the cavity of the stabilizer 8. The interaction of the swirling and annular flows makes it possible to obtain a compressed air-fuel flow and to ensure high-quality atomization. Combustion air is supplied around the periphery of the housing 1, washing the conical fairing 11 and the stabilizer 8. In this case, part of the air is ejected through the gap 9 into the cavity of the stabilizer 8, ensuring the stability of the torch ejected from the nozzle. Moving the stabilizer 8 adjusts the size of the gap 9 and, therefore, the operation of the nozzle in various modes.

Claims (1)

Claim 15 A pneumatic nozzle containing an air inlet body, the axis of which is U, srig..g a fuel pipe connected to the turbulence chamber with an outlet nozzle, connected by tangential openings in the side wall with the housing cavity, and a sleeve on the periphery of the chamber with the formation of an annular channel and a stabilizer installed on the front end of the housing; In order to improve the combustion efficiency by increasing the stability of the torch, the annular channel in the area of the outlet nozzle of the swirl chamber is cylindrical in shape, and the stabilizer is mounted relative to the body with a gap with the possibility of longitudinal movement. Sources of information taken into account in the examination 1. USSR patent number 11362, cl. F 23 D 11/10, 1928. 9 8 0 / I figs. 55 7 c. // / /