CS243882B1 - The head cooling device is testing the oxygen nozzle - Google Patents

Abstract

The solution relates to a cooling device for a copper head of an oxygen nozzle in steelmaking furnaces for metal refining. The cooling device for the head of an oxygen refining nozzle used for metal refining in hearth steelmaking aggregates and oxygen converters is characterized according to the invention in that the cylindrical space between the shielding tube (3) and the inner bottom (1) of the nozzle is partially blinded by at least two partitions (5, 6) in the shape of a segment of an annulus and channel plates (7, 8) are inserted into the gaps between the partitions (5, 6) and welded to the inner bottom (1) of the nozzle.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling device of a copper oxygen head used in steel furnaces for refining metal.

On some hearth steel refining aggregates, for example in tandem furnaces, oxygen exit nozzles are used obliquely at the front of the furnace. The nozzle body is intensively cooled with pressurized water and consists of an inner oxygen supply tube to which the inner bottom of the nozzle is welded with four oxygen distribution channels opening in the oxygen ports of the nozzle head, which is welded to the outer support pipe of the nozzle. A screening tube is provided concentrically between the inner oxygen supply tube and the outer support tube for cooling water distribution; pressurized water is supplied from the base of the nozzle towards its head by a cylindrical space between the inner oxygen supply tube and the shielding tube, dispersing and cooling the space of the inner face, oxygen distribution channels and outer nozzle head, penetrates into the cylindrical space between the shielding tube and outer nozzle support tube from where it returns for cooling and further sirculation.

A disadvantage of the cooling space arrangement of the head portion of the nozzle is that the incoming cooling water is insufficiently circulated therein and exits through the region of least resistance, i.e. the peripheral zone of the cooling space back between the shielding tube and the outer support tube, while the exposed central portion of the head is insufficiently cooled. High temperatures and temperature differences in the nozzle resulting in a reduced service life and require frequent replacements and repairs, which are costly considering that all of the nozzle parts listed are copper welded castings or forgings.

The above-mentioned drawbacks eliminate the cooling device of the head of the oxygen blow-down nozzle used for the refining of metal in hearth steel aggregates and oxygen converters and the principle of the invention is that channel plates are inserted and welded to the inner nozzle bottom between the two baffles.

By the oriented arrangement of the flow holes in the cooled space of the nozzle head, there is a more intense turbulent flow of the cooling medium, in the most heat-exposed part of the head, the life of which is noticeably increased.

An exemplary embodiment of a nozzle with a cooling device of the head according to the invention is shown schematically in the attached drawing, which shows a transverse axial section at the location of welding of the nozzle head to the outer nozzle support pipe.

The illustration shows the concentric assembly of the inner bottom 1 of the oxygen supply tube with the indicated oxygen channel outlets 2, the shielding tube 3 and the outer support tubes The annulus formed between the inner bottom 1 and the shielding tube is partially blinded by two baffles. the free space between the two partitions 5, 6 are retracted and the U-shaped channel sheets 13 are welded to the inner bottom.

Cooling pressurized water exits from the drawing from the nozzle base by an annular ring between the inner bottom 7 and the shielding tube impinges on the inner wall of the nozzle head, not shown in section, and returns to the drawing by the annulus between the outer support tube 4 and the shielding tube 2 back to the nozzle foot. The baffles 5, 6 thereby prevent the entire flow of cooling water from being immediately returned to the circulation through the outer casing of the nozzle; between the baffles 5, the channel sheets 7 inserted therein, forming pockets 9, 10 which direct the flowing water first to the center of the concentric system and only after the central part has been bypassed does the water flow return through the annular ring between the outer support tube 14 and the screen.

Claims (1)

Cooling mechanism of the oxygen refolding nozzle head used for refining of metal in hearth steel aggregates and oxygen converters, characterized in that the cylindrical space between the orifice tube (3) and the inner nozzle bottom (1) is partially blinded by at least two partitions (5, 6). channel sections (7, 8) welded to the nozzle bottom (1) and to the inner bottom (1) of the nozzle are inserted into the gaps between the partitions (5, 6).