SU1027475A2 - Air-atomizing burner - Google Patents

Abstract

PNEUMATIC SPRAYER by author. St. 6611.89, characterized in that, in order to improve the efficiency of lining, the nozzle further comprises a concave reflector located between adjacent rows of tangential channels coaxially and opposite to the fuel line, which is installed with the possibility of longitudinal movement.

Description

The invention relates to nozzles for spraying a liquid, can be used in heating and glass melting furnaces.

A nozzle is known, comprising a housing and placed coaxially with Hw to form a gap for supplying the atomizer with a fuel nozzle with a ClJ diffuser.

To disperse a liquid in finely divided form, this nozzle requires a high specific atomizer flow rate.

According to the main author. St. No. 661189 is a well-known pneumatic nozzle, containing a cylindrical chamber, located in front of the nozzle and coaxially with the latter, which is connected to the fuel line by a hole in the end face and with an air line - by tangential channels located at least two rows in the side walls Dovs have the opposite spin 2.

The disadvantage of the known nozzle is the low efficiency of the first row of tangential channels, since it is not the film that is crushed, but a liquid jet / flowing out of the fuel hole.

The purpose of the invention is to increase the efficiency of spraying.

The goal is achieved by the fact that in a pneumatic nozzle containing a cylindrical mixing chamber located in front of the nozzle and coaxially with the latter, which is connected to the fuel line with a hole in the end, and the air supply has tangential channels located at least two rows in the side wall of the chamber ( Neighboring rows have the opposite twist, the pneumatic nozzle additionally contains a concave reflector located between adjacent rows of tangential channels coaxially and towards the fuel. voprovodu, which is mounted for longitudinal movement.

The drawing shows a pneumatic nozzle, longitudinal section,

The Fordunk contains a cylindrical mixing chamber 1 located in front of the nozzle 2 and coaxially with the latter, which communicates with the fuel line 3 with an opening 4 in the end, and with the air supply 5 tangential channels 6 and 7 located at least two rows in the side wall of the chamber 1, and the channels 6 have opposite spin channel 7.

The nozzle further comprises a concave reflector 8, located-. between adjacent rows of tangential channels b and 7 coaxially and towards the fuel line 3, which is installed with the possibility of longitudinal movement.

A pneumatic nozzle operates as follows.

The fuel jet from the fuel line 3 hits the concave reflector 8 and breaks into a film, the thickness of which is smaller, the smaller the gap between the hole 4 at the end of the fuel line 3 and the concave reflector 8. Then the film of fuel gets under 5 jets of swirling air flow coming through the perch There are a number of tangential channels 6. Here the fuel film splits into separate drops. Formed with. 0, the fuel-air mixture, having a high tangential velocity component, collides with an oppositely swirling air flow arising from the second row of tangential channels 7. As a result of the impact; flows are finely crushed fuel, then the air-fuel mixture is ejected from the nozzle through the nozzle 2. By changing the mutual position of the fuel line 3 and the concave reflector 8 during the nozzle operation, the fuel consumption can be changed, its pressure in front of the nozzle can be changed, and at a given flow rate fuel to make 5 coarse adjustment of the length of the torch, followed by adjusting the pressure of the sprayer.

Thus, the pneumatic nozzle allows stabilizing the torch length and has a low specific flow rate of the sprayer.

Claims (1)

PNEUMATIC INJECTOR by ed. St. No. 6611 ₍ 89, characterized in that, in order to increase sawing efficiency, the nozzle additionally contains a concave reflector located coaxially between adjacent rows of tangential channels and facing the fuel line, which is installed with the possibility of longitudinal movement. Tollibo 8 2 m cl 102.747.5