RU2373023C2 - Tuyere for bottom gas metal purging in ladle and manufacturing method thereof - Google Patents

Abstract

FIELD: metallurgy industry.

SUBSTANCE: tuyere consists of metal sleeve with a bottom, which is filled with refractory concrete mass, in which around longitudinal axis there made are through gas-supplying slot channels, and wear indicator located in lower part of metal sleeve. Slot channels are spiral and are surrounded with eyes of distance rings. Tuyere manufacturing method involves manufacture of cone sleeve with a bottom and gas-supplying tube, installation of channel-forming strips into slots of the consumable pattern, installation of pattern with strips in bottom part on pins welded to the cone sleeve bottom, installation of wear indicator into consumable pattern and its attachment by means of a clamp to pins for the pattern, attachment of upper ends of channel-forming strips by means of a fixture put on upper part of cone sleeve, sandwiching and vibration compaction of refractory concrete mass with further thermal treatment. Before consumable pattern is installed in the sleeve, upper ends of channel-forming strips are passed through eyes of distance rings, crimped for fixing the rings position. After the pattern is installed and fixed in the sleeve, upper ends of strips are turned in circumferential direction relative to vertical sleeve axis till the strips are located spirally.

EFFECT: improving operating reliability of tuyere at spiral location of through slot-type channels.

2 cl, 5 dwg, 2 ex

Description

The invention relates to metallurgy and can be used for out-of-furnace processing of steel in ladles by gas purging.

The closest in technical essence is a lance for bottom blowing metal gases in the bucket, containing a metal sleeve with a bottom filled with a refractory mass, in which through gas supply channels and an indicator of wear of the refractory concrete mass located in the lower part of the metal sleeve are made around the longitudinal axis (1) .

The disadvantage of the lance is that the gas-supply slotted channels are straight-through, i.e. straight, and jets of gases flowing from the channels move along the axis of the bucket. According to the laws of jet movement, the mixing of metal by such jets is carried out within the angle of expansion of the jet equal to 15-20 °. Outside the expansion zone, the metal moves laminarly without stirring.

The closest in technical essence and the achieved result is a method of manufacturing a blowing lance for bottom purging with gases in a bucket, manufacturing a conical sleeve with a bottom and a gas supply tube, installing channel-forming strips in it for the formation of longitudinal through slotted channels, layering and vibration compaction of the refractory concrete mass with subsequent heat treatment. The lower ends of the channel-forming strips are fixed using an expendable template fixed on threaded rods welded to the bottom of the sleeve, and the upper ends - using the latch worn on the upper part of the conical sleeve (2).

The disadvantage of this method is that it does not allow for a spiral arrangement of channel-forming strips. In this regard, the mixing of metal in the bucket is carried out only in the vertical direction, which is limited by the height of the bucket.

The problem to which the invention is directed, is to increase the efficiency of the lance while stirring the metal.

The proposed tuyere for bottom metal gas purging in a bucket includes a metal sleeve with a bottom filled with a refractory concrete mass, in which through gas axis slotted channels and a wear indicator located in the lower part of the metal sleeve are made around the longitudinal axis, while the slotted channels are made in a spiral and are surrounded ears of distance rings. A distinctive feature of the lance is that the slotted channels are made in a spiral and surrounded by the ears of the distance rings.

This distinctive feature allows you to increase the efficiency of the lance during its operation in a steel pouring ladle.

The design of the proposed tuyeres is presented in figure 1 is a longitudinal section, figure 2 shows a top view.

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 slotted channels 5 are made, made in a spiral with a longitudinal axis of symmetry coinciding with the vertical axis of the lance, and distance rings 6 s ears. In the lower part there is a wear indicator 7, molded with a refractory mass.

Tuyere works as follows.

When purging the metal, the gas entering the gas pipe 3 is distributed along the slotted channels 5. Due to the fact that the channels are made in a spiral, when leaving the tuyere, the velocity vector is directed at an angle to the vertical. When moving in a metal, the gas ejects the metal in the direction of its movement. Since all the tuyere channels are made in a spiral, the metal receives motion in a circular direction relative to the tuyere axis. The vertical component gives the metal a vertical movement. Thus, the lance provides mixing of the metal in both vertical and horizontal directions. As the tuyeres wear out, the distance rings quickly burn out without affecting the tuyere operation.

Concrete example

The lance is made in the form of a metal sleeve of a truncated cone with a diameter of the upper base of 120 mm and the lower 180 mm. The sleeve is made of stainless steel with a thickness of 0.8 mm. The bottom of the sleeve is 4 mm thick stainless steel. The sleeve is filled with low-cement thixotropic refractory concrete of corundum composition. Before filling with concrete, 16 channel-forming strips with 5 distance rings were installed in the sleeve. The strips, by turning them around a vertical axis by 270 °, form spirals. At this angle of rotation, the slope of the strips to the horizon is 45 °.

The proposed method for manufacturing a purge lance includes the manufacture of a conical sleeve with a bottom and a gas supply tube, the installation of channel-forming strips in the grooves of the sacrificial template, the installation of the template with strips in the bottom on the studs welded to the bottom of the conical sleeve, installation of the wear indicator in the consumable template and its fastening using the staples on the studs for the template, fastening the upper ends of the channel-forming strips with the help of a latch worn on the upper part of the conical sleeve, layering and vibration-sealing e refractory concrete mass with subsequent heat treatment.

A distinctive feature of the proposed method is that before installing a sacrificial template with channel-forming strips in a conical sleeve, the upper ends of the channel-forming strips are threaded into the ears of the distance rings, which, after the rings are evenly distributed along the length of the working part of the strips, are crimped to fix the position of the rings, and after installing and fixing the template with channel-forming strips and rings in the sleeve, the strips are deployed at their upper ends in a circle relative to the vertical axis of the sleeve until I strips of desired spiral, while maintaining radial direction, whereupon the tension bands and their fixation. The foregoing is illustrated in FIGS. 3, 4, 5. FIG. 3 shows a cross section of a sleeve with one strip before laying concrete, FIG. 4 is a top view, and FIG. 5 is a spacer ring.

Such a technical solution provides for obtaining through slotted channels arranged in a spiral inside the refractory concrete mass of the lance.

The method is carried out in the following sequence. A conical sleeve 1 with a bottom 2 and a gas supply tube 3 is made. Threaded rods are welded to the bottom. Then an expendable template 8 is made and channel-forming strips 9 are cut, spacer rings 6 are made of steel wire or plastic. The lower ends of the channel-forming strips 9 are inserted into the grooves of the expendable template 8, and the upper ones are inserted into the ears of the distance rings 6. After the rings 6 are evenly distributed along the length of the working parts of the channel-forming strips 9 and the alignment of their position in the horizontal plane of the ears of the rings are crimped with pliers to fix their position. Then, a consumable template 8 with channel-forming strips 9 and spacer rings 6 is inserted into the sleeve 1 onto the studs and pressed to the bottom. Set the wear indicator 7 with the bracket 10 and with the help of nuts screwed onto the studs, fix the template to the bottom of the sleeve. Next, the upper ends of the channel-forming strips are lifted above the sleeve and the latch 11 is put on the upper part of the cone in the form of a conical ring with slots for fastening the strips.

Then the strips are deployed at the upper ends around a circle relative to the vertical axis of the sleeve to the desired location of the strips in a spiral, while maintaining their radial direction, produce tension and fix. After that, layering and vibration compaction of the concrete mass and heat treatment are performed.

A specific example of the method

A 0.8 mm thick conical sleeve is made of stainless steel in the form of a truncated cone with a diameter of upper 120 mm and lower 180 mm, a shell. The height of the sleeve is 338 mm. A bottom is made of stainless steel 4 mm thick and M6 × 30 studs are welded to it. Then weld the shell with the bottom. Of the steel wire with a diameter of 1.5 mm, two distance rings with dimensions in FIG. 5 are made. After that, channel-forming strips are inserted into the grooves of the sacrificial template, the upper ends of the strips are inserted into the ears of the distance rings, first with a diameter of 114 mm, then 104 mm. Then the first ring is set to a height of 113 mm from the sacrificial template, align its position relative to the plane of the template and squeeze the ears with pliers to fix the position of the ring on the channel-forming strips. Further, in a similar manner, at a distance of 113 mm from the first ring, the second is exposed and fixed. After that, insert the sacrificial template with channel-forming strips and rings into the sleeve, install and fix the wear indicator, screw the nuts on the studs and fasten the expendable template to the bottom of the sleeve by tightening them. Then the channel-forming strips for the upper ends are turned around a circle relative to the vertical axis of the sleeve at an angle of 135 °, while maintaining their radial direction, produce tension and fixes. After this, layer-by-layer laying and vibration compaction of the concrete mass are carried out and sent for heat treatment. Thus, a lance with a spiral arrangement of slotted channels inside the concrete is obtained, the angle of inclination of which from the vertical is 20 °.

Information sources

1. Advertising brochure-catalog of manufactured products by Plibrico GmbH, Düsseldorf.

2. RF patent No. 2243267, CL S21C 5/48, 7/072, pr. 18.08.2003,

Claims (2)

1. A lance for bottom blowing metal gases in the bucket, including a metal sleeve with a bottom, filled with a refractory concrete mass, in which continuous gas supply slotted channels are made around the longitudinal axis, and a wear indicator located in the lower part of the metal sleeve, characterized in that the slotted channels made in a spiral and surrounded by the ears of the distance rings. 2. A method of manufacturing a tuyere for bottom metal blowing gas in a bucket, including the manufacture of a conical sleeve with a bottom and a gas supply tube, installing channel-forming strips in the grooves of the sacrificial template, installing the template with strips in the bottom of the studs, welded to the bottom of the conical sleeve, installation in the consumable a wear indicator template and its fastening with a staple on the studs for the template, fastening the upper ends of the channel-forming strips with the help of a latch worn on the upper part of the conical sleeve, layering and vibration compaction of the refractory concrete mass with subsequent heat treatment, characterized in that before installing a sacrificial template with channel-forming strips in a conical sleeve, the upper ends of the channel-forming strips are inserted into the ears of the spacer rings, which are pressed after the rings are evenly distributed along the length of the strips to fix the position of the rings, and after the installation and fixation of the template with channel-forming strips and rings in the sleeve of the strip deploy for the upper ends around a circle relative to the vertical noy axis of the sleeve to the desired location of the spiral strips, while maintaining the radial direction, whereupon the tension of the strips and their fixation.

Images