RU2369464C2 - Tuyere for bottom gas blowing of metal in ladle and method of tuyere fabrication - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: tuyere consists of metal sleeve with bottom filled with refractory concrete mass wherein fissure channels and wear indicator are made moulded with refractory concrete mass. Additional labyrinth channels are made in refractory concrete mass; the channels are situated between the fissure channels and a side edge of the tuyere; also the wear indicator consists of an upper cone part and lower cylinder part of smaller diametre. The method consists in fabrication of the cone sleeve with the bottom and a gas supplying tube, in installation of channel-forming strips for through fissure channels and the indicator of refractory concrete mass wear in the cone sleeve, in fixation of lower ends of channel-forming strips by means of expendable mould, and upper ends - by means of a fixing device put on the upper part of the cone sleeve; also the method consists in layering and in vibration compacting refractory concrete mass with successive heat treatment. A net for forming fissure and labyrinth channels is installed into the sleeve; upper and lower ends of the net are fixed. The wear indicator is made in form of the upper cone part and lower cylinder part of smaller diametre; it is fixed by means of two brackets and threaded pins.

EFFECT: upgraded reliability and safety.

2 cl, 2 dwg, 2 ex

Description

The invention relates to metallurgy and can be used for out-of-furnace processing of steel in ladles by blowing with inert gases.

Known lance for bottom blowing metal gases in the bucket, containing a metal sleeve with a bottom filled with a refractory mass, in which there are longitudinal through slotted channels and a wear indicator located in the lower part, molded with a refractory mass, while the wear indicator is made in the form of a truncated cone, on the outer surface of which there are annular grooves filled with a refractory mass (1).

This lance is the closest in technical essence and the achieved result and adopted as a prototype.

A disadvantage of the known lance is that the indicator is mounted in such a way that the lower base rests on a consumable template, which during operation during wear of the lance to the indicator can lead to the passage of metal through the hole from the burnt indicator, since the wear indicator is made of graphite. In addition, a disadvantage of the known lance is that the direct-flow slotted channels do not provide the formation of a large number of bubbles that create the flotation effect, and sufficient refining of liquid steel, and therefore the quality of the metal in non-metallic inclusions.

A known method of manufacturing a purge lance, including the manufacture of a conical sleeve with a bottom and a gas supply tube, installing channel-forming strips in it to form longitudinal through slotted channels and a wear indicator, fixing the lower ends of the channel-forming strips using an expendable template, and the upper ends of the channel-forming strips using a latch mounted on the upper part of the conical sleeve of the lance, layering and vibration compaction of the refractory mass with subsequent heat treatment, while fixing e expendable template to the bottom is carried out using threaded rods welded to the bottom of the sleeve, and the wear indicator is mounted using a bracket made of sheet metal and threaded rods for attaching the template (1).

The known method with mounting the indicator with one bracket in the upper part cannot be applied to the proposed tuyere design, because the indicator during vibration compaction of refractory concrete mass can be pressed to the bottom of the lance.

The problem to which the invention is directed is to develop a blowing lance for bottom blowing of metal with high performance properties, such as improving reliability and safety in work, efficient mixing of the metal, ensuring its quality, as well as reducing the specific consumption of inert gas per 1 ton of metal .

The proposed lance for bottom metal blowing gas in a bucket contains a metal sleeve with a bottom filled with refractory concrete mass, in which slotted channels are made, and a wear indicator of the refractory concrete mass, molded with refractory concrete mass, while in the refractory concrete mass labyrinth channels are additionally arranged between the slotted channels and the lateral edge of the lance, and the wear indicator is located in the upper part of the lower third of the height of the lance and consists of an upper conical part and a lower cylindrical the second part of smaller diameter.

A distinctive feature of the lance is that it additionally has labyrinth channels located between the slotted channels and the lateral edge of the lance, and the wear indicator is located in the upper part of the lower third of the height of the lance and is made in the form of a conical part of the lower cylindrical part of a smaller diameter.

Such a distinctive feature, as additional labyrinth channels, allows to achieve effective mixing of the metal, and the sign of the location of the wear indicator in the upper part of the lower third of the lance height and the performance of the wear indicator in the form of a truncated cone, passing in the lower part into a cylinder of a smaller diameter, surrounded on all sides by a refractory concrete mass, in the case of wear of the lance before the appearance of the indicator avoids the passage of metal, therefore, to increase the reliability of the lance during its operation.

The design of the proposed lance is presented in figure 1 is a longitudinal section, in figure 2 is the fastening of the expendable template, indicator and retainer.

The lance includes a metal sleeve 1, welded with a bottom 2 and a gas supply pipe 3. The sleeve is filled with a refractory concrete mass 4, in which longitudinal through slotted 5 and labyrinth channels are made 6. A wear indicator 7 is installed in the lower part, which is molded from all sides with a refractory concrete weight 4. The wear indicator 7 consists of an upper conical part and a lower cylindrical part of a smaller diameter.

Tuyere works as follows. During the operation of the lance, wear occurs, amounting to 1-1.5 mm per melt. As the refractory concrete mass 4 deteriorates, the upper part of the wear indicator 7 is exposed, the material of which differs in radiation capacity from the refractory concrete mass 4. In this case, the wear indicator 7 is kept from its extrusion from the refractory concrete mass 4 by its conical part. When the purge ceases, the wear indicator 7 is kept from extruding under the influence of metal pressure by the refractory concrete mass 4 below the indicator 7. Thus, the wear indicator is kept from being extruded both up and down, which ensures reliable operation of the lance.

Concrete example

The lance is made in the form of a sleeve of a truncated cone with a diameter of the upper base of 120 mm and the lower 180 mm. The height of the sleeve is 338 mm. The sleeve is made of 0.8 mm thick stainless steel. The bottom of the sleeve is 4 mm thick stainless steel. The sleeve was filled with low-cement or cementless thixotropic refractory concrete of corundum composition. Before filling with concrete, a wear indicator made of graphite was installed and fixed in the bottom of the sleeve. The wear indicator consists of an upper conical part with an upper base with a diameter of 20 mm and a lower 35 mm, and a lower cylindrical part with a diameter of 20 mm. The total height of the conical part of the wear indicator is 65 mm, the cylindrical part of the wear indicator is 15 mm.

When concreting on all sides, a wear indicator surrounds the refractory concrete mass, which, after hardening, has a compressive strength of at least 35 MPa. The compressive strength of graphite is at least 20 MPa.

The tuyere test results with such an indicator showed their reliability in operation.

The proposed method of manufacturing a tuyere for bottom metal gas purging in a bucket includes the manufacture of a conical sleeve with a bottom and a gas supply tube, installing channel-forming strips in it for the formation of through slotted channels and an indicator of wear of the refractory concrete mass, fixing the lower ends of the channeling strips using an expendable template, and the upper ends using a clamp worn on the top of the conical sleeve, layering and vibration compaction of the refractory concrete mass, followed by heat treatment moreover, in addition to the sleeve, a grid is installed for the formation and labyrinth channels, its lower and upper ends are fixed with the help of the mentioned template and retainer, while the wear indicator is made in the form of an upper conical part and a lower cylindrical part of a smaller diameter and its fastening is carried out using two staples made of sheet metal and threaded rods, one of the staples being installed in the upper conical part of the wear indicator, and the other staple being made with an opening into which the cylindrical part of the ind ikator of wear of refractory concrete mass.

To fix the lower part of the channel-forming material, an expendable template is made, made of multilayer plywood or other easily playable material, which has a recess for a gas supply pipe 4-5 mm high and a diameter equal to the external diameter of the gas supply pipe, the lower ends of the channel-forming strips are fixed with grooves sawn in a template, then a channel-forming mesh made in the form of a cylinder (stocking) is put on the clamp, and the upper ends of the channel-forming material are fixed ala to form a labyrinth-type channel in conjunction with through slotted channels produced via retainer worn on top of the taper sleeve lance.

A distinctive feature of the proposed method is that, in addition, a grid is installed in the sleeve for the formation of labyrinth channels, its lower and upper ends are fixed using the above-mentioned template and retainer, while the wear indicator is made in the form of an upper conical part and a lower cylindrical part of a smaller diameter and its fastening carried out using two brackets of sheet metal and threaded rods, and one of the brackets is installed in the upper conical part of the wear indicator, and the other bracket is performed with miles, which is inserted in the cylindrical portion of the indicator of wear of the refractory concrete mass.

The above explains figure 2.

This technical solution provides reliable fixation of the wear indicator and its rigid fastening during concreting and vibration compaction, as well as reliable operation of the lance during operation when the indicator appears.

The method is carried out in the following sequence. After manufacturing the conical sleeves 1 with a bottom 2 and a gas supply tube 3, threaded rods 8 are welded to the bottom before welding them. Then, the channel-forming strips 9 are cut and passed under the template through the diametrically arranged sawn grooves of the expendable template 10, then the channel-forming mesh made in in the form of a cylinder (stocking) 11. Then, the expendable template 10 is inserted into the sleeve 1 so that the studs 8 enter the hole for mounting the template, and press the template to the bottom 2. After that, the studs 8 are put on and the lower bracket of sheet metal 12 is pressed tightly, into the hole of which the cylindrical part of the wear indicator 7 is inserted, then the upper bracket 13 is put on the conical part of the wear indicator 7 so that the studs 8 enter the mounting holes, and then the nuts 14 are screwed onto the studs 8 and tighten them until fully pressed to the bottom. This ensures that the wear indicator is fixed in a stationary state during vibration, as well as the required thickness of the refractory concrete mass under it, which ensures reliable operation of the lance during operation when a wear indicator appears. A clamp 15 in the form of a conical ring with sockets for fastening the strips and fixing the channel-forming mesh is put on the outside of the conical lance from the outside and they are tensioned.

A specific example of the method

A stainless steel cone is made of 0.8 mm thick conical, in the form of a truncated straight cone with a diameter of the upper 120 mm and lower 180 mm of the base, the shell. The height of the sleeve is 338 mm. Before welding the sleeves, two M6 × 30 studs are welded to the bottom symmetrically to the bottom axis at a distance of 60 mm from each other. After welding the sleeve, a wooden consumable template with channel-forming strips and a mesh is installed in it so that the studs enter the holes for mounting the template. Next, an indicator is installed, which is fastened with two brackets made of sheet metal, one of which is installed in the upper conical part of the indicator, and the second is mounted on the lower cylindrical part of the indicator so that the studs enter the holes for mounting the template. Screw the M 6 nuts onto the studs and tighten them until they are fully pressed to the bottom. This ensures that the wear indicator is pressed while stationary during vibration, as well as the required thickness of the concrete mass under it, which ensures reliable operation of the lance during operation when the wear indicator appears. The upper ends of the channel-forming strips and nets are fixed with a latch mounted on the top of the conical sleeve of the lance. After tensioning the channel-forming strips and nets and fixing them, layer-by-layer laying and compaction of the refractory concrete mass is carried out with its subsequent heat treatment.

During vibration compaction, a refractory concrete mass surrounds the wear indicator and, after hardening, its reliable fastening is ensured, and tightly pressing the sacrificial template to the bottom of the sleeve and the absence of a through hole in the template prevents the penetration of the refractory concrete mass under the template and clogging of the argon-feeding tube, which ensures reliable operation of the lance.

The source of information

1. Patent No. 2243267, cl. С21С 5/48, 7/072, В22D 1/00, pr. 18.08.2003.

Claims (2)

1. A lance for bottom blowing metal gases in the bucket, containing a metal sleeve with a bottom, filled with refractory concrete mass, in which slotted channels are made, and a wear indicator of the refractory concrete mass, molded with refractory concrete mass, characterized in that the refractory concrete mass is additionally made labyrinth channels located between the slotted channels and the lateral edge of the lance, and the wear indicator is located in the upper part of the lower third of the height of the lance, consists of an upper conical part and a lower cylinder small part of the smaller diameter. 2. A method of manufacturing a tuyere for bottom metal gas purging in a bucket, including manufacturing a conical sleeve with a bottom and a gas supply tube, installing channel-forming strips in it to form through slotted channels and an indicator of wear of the refractory concrete mass, fixing the lower ends of the channel-forming strips using an expendable template, and the upper ends - with the help of a retainer worn on the upper part of the conical sleeve, layering and vibration compaction of the refractory concrete mass with subsequent heat treatment, excellent In addition, a grid is installed in the sleeve for the formation of labyrinth channels, its lower and upper ends are fixed with the help of the mentioned template and retainer, while the wear indicator is made in the form of an upper conical part and a lower cylindrical part of a smaller diameter and its fastening is carried out using two staples made of sheet metal and threaded rods, one of the staples being installed in the upper conical part of the wear indicator, and the other staple being made with an opening into which the cylindrical part is inserted indicator of wear of refractory concrete mass.

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