SU410103A1 - - Google Patents

Description

one

The invention relates to steelmaking, in particular, to devices for supplying purge gases to a metal bath.

Constructions of purge tuyeres are known, in which the nozzles protrude beyond the head having a spherical-shaped end surface and equipped with a series of water-cooled oxygen nozzles that branch from the central pipe at an angle and protrude beyond the head to a distance equal to approximately nozzle diameter.

A disadvantage of the heads of the known oxygen-blowing lances with nozzles, the axes of which intersect with the axis of the tuyere or pass near it, is that the oxygen jets flowing out of the nozzles arranged in this way cause oxygen oscillations when interacting with the liquid metal bath, which is accompanied by periodic overflows or splash of significant volumes of slag metal emulsion through the converter mouth. The allowable amount of emissions significantly limits the intensity of the purging of the bath, i.e. the amount of gas (in particular, oxygen) per unit of charge and unit of time.

The aim of the invention is to eliminate emissions from a metal bath (e.g., a converter), as well as to create conditions for accelerating the process of smelting steel scrap and solid iron.

For this purpose, the purge nozzles of the described tuyere are moved from the tuyere axis to a distance equal to 0.2-0.4 of the radius of the internal cylindrical part of the converter in such a way that the nozzle axes are directed at a right angle to the horizontal projection of the water-cooled channels and at an angle of 5-60 ° to vertical plane. The water-cooled channels are located at an angle forming the cone, which can be selected in various designs in the range of 30-90 °.

FIG. 1 shows a longitudinal section of the proposed tuyere; in fig. 2 shows a section along AA-A and FIG. one; in fig. 3-section along BB in FIG. one.

The lance consists of body 1, pipe 2 for supplying purge gas, separation pipe 3 with guide element 4 for coolant, head 5 with separate water-cooled channels 6, blowing nozzles 7 (expanding or cylindrical), partition walls for cooler 8.

Water-cooled gas channels flow from the central gas supply pipe 2 along the cone forming an angle a, which

It may vary for different designs in the range of 30-90 °. The purge nozzles 7 are positioned so that their axes are perpendicular to the horizontal plane and located at an angle of p 5-60 ° to the vertical.

The separator pipe 3, the directional element 4, and the partition walls 8 serve to direct the flow of the cooler.

The lance works in this way.

Compressed gas entering through pipe 2 passes into separate water-cooled channels 6 and flows through nozzles 7. Cooling water passes through the annular channel between pipes 2 and 3 into the head 5, from which it flows into the lower half of the b-channel annular space with the help of guide element 4 and then, skirting the partition 8, - on the upper half of the annular space of the channel 6 and, finally, on the annular channel

between the pipe 3 and the housing 1 exits the tuyere.

Subject invention

Multislope purge lance, including 1, and a head with separate water-cooled channels protruding beyond its spherical part with nozzles diverging along the cone-forming parts, so that, in order to eliminate metal emissions when blowing a converter bath and acceleration of pulp melting, purge soils taken from the lance axis to the discharge equal to 0, 4 radii of the internal cylindrical part of the converter and directed at a right angle to the horizontal projection of water-cooled channels and at an angle of 5-60 ° to th plane.

L-A

Pi / S.2