RU2016086C1 - Apparatus for treating metal - Google Patents

Abstract

FIELD: treating of metal at discharging melt from furnace. SUBSTANCE: lined nozzle is provided at least by two symmetrical ducts with displaced output openings and tuyeres, arranged opposite relative to the output openings of the ducts coaxially with them. EFFECT: enhanced quantity of metal and increased efficiency of treatment. 1 cl, 1 dwg

Description

 The invention relates to metallurgy, in particular to steelmaking equipment.

 A device for processing a metal jet is known, including a lined nozzle with a through channel and a lance installed in the side wall of the nozzle (1).

 The disadvantages of the known device are limited functionality due to the lack of means for cutting off the slag and the low processing efficiency due to the insufficient number of tuyeres and their unsatisfactory location.

 Of the known closest to the described by technical essence and achieved results is a metal processing device containing a lined nozzle with a through channel, the outlet of which is offset from the inlet, and a lance installed opposite the inlet (2).

 The disadvantages of the known device include the limited processing efficiency due to the insufficient number of tuyeres, short contact time of the refining gas with the metal.

 The aim of the invention is to improve the quality of metal and increase processing efficiency.

 This goal is achieved by the fact that in the known device containing a lined nozzle with a through channel, the outlet opening of which is offset from the inlet, and a lance installed opposite the inlet, according to the invention, the nozzle is provided with at least one additional channel symmetrical to the first relative to the axis of the inlet , and tuyeres located opposite the channel outlet openings coaxially with them.

 The presence of an additional channel helps to reduce the cross section of metal flows and improve the interaction of the melt with the refining gas or with the gas-powder mixture.

 The use of additional tuyeres makes it possible to vary the amount of introduced reagents and increase the intensity of their supply. The location of the tuyeres opposite the outlet openings of the channels ensures the injection of reagents into the expanding stream of metal along its axis, which increases the duration of metal contact with the reagents with a developed surface due to the formation of droplets.

 Due to an increase in the feed rate of the reagents, a decrease in the cross-section of the flow, an increase in the reaction surface, an increase in the duration of contact, the processing efficiency is increased, which improves the quality of the metal.

 The drawing shows the proposed device.

 The device contains a removable lined nozzle 1, mounted on the converter housing 2 coaxially with a drain hole 3. In the lower part of the nozzle 1 there are side nozzles 4 made in the form of an elbow 5 with guide socks 6, as well as a plug 7 with a porous plug 8 for blowing inert gas located opposite the drain hole 3.

 An induction coil 9 is integrated in the upper part of the pipe 1 to control the appearance of slag, and additional tuyeres 10 are installed in the side pipes opposite the drain socks 6 for injecting an inert gas or gas-powder mixture. The device operates as follows. Before turning the converter to release the melt, turn on the supply of inert gas (argon) through the plug 8 with an intensity sufficient to cut off the slag when passing it over the drain hole 3, as well as through the tuyeres 10, then the converter is turned into the position for draining the metal, the argon supply through plug 8 is reduced to a minimum value.

 When slag appears in the drain hole 3, the induction coil 9 gives a signal to increase the argon flow to maximum, as a result of which the argon flow closes the drain hole and cuts off the slag, which is then removed in the usual way.

 In the exhaust process, inert gas or a gas-powder mixture, for example, a mixture of argon and powdered desulfurizers or carburizers, is blown through lances 10. Unreacted reagents are carried away by a stream of metal and distributed throughout the volume of the molten bath in the ladle.

 Compared with the best examples of similar equipment, the described device functionality due to the possibility of slag cutoff and provides a more efficient metal processing, due to the increase in the number of tuyeres and their optimal location.

Claims (1)

 A METAL PROCESSING DEVICE comprising a lined nozzle with a through channel whose outlet is offset from the inlet and a lance installed opposite the inlet, characterized in that, in order to improve the quality of the metal and increase the processing efficiency, the nozzle is provided with at least one additional channel symmetrical to the main, relative to the axis of the inlet, and tuyeres located opposite the outlet openings of the channels coaxially with them.

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