EP0136459A1 - Strand guide for a continuous casting installation for steel - Google Patents

Abstract

1. A strand guide for an installation for the continuous casting of steel and for producing a strand which can be immediately rolled, the strand guide having guide rails which extend in the direction of movement of the strand and which comprise a replaceable part which faces the strand, characterised in that this part (10) consists of ceramic material and is secured to a metallic support part (12).

Description

The invention relates to a strand guide of a continuous steel casting plant for producing a directly rollable strand, the strand guide having guide rails extending in the direction of the strand with an interchangeable part facing the strand.

Due to economic considerations, the casting heat present in the cast strand is to be optimally used. Many efforts have been made to feed the strand emerging from a continuous casting plant directly or after it has been cut, to direct deformation or rolling.

It is generally known to completely or partially isolate the strand in order to avoid heat losses in the strand guide or to heat it up by means of additional heating elements in order either to maintain a specific rolling temperature or to bring about a desired temperature compensation.

It is also known (GB-PS 1 188 816) to guide and extend the strand in the secondary cooling zone by means of metallic guide rails, the so-called "walking bars". This achieves a support which prevents the strand from bulging, in particular from slabs, such guide rails resting on the surface of the strand, walking along a certain distance with the strand and then returning to their starting position. The metallic Guide rails have cooling channels near their work surfaces to both extract heat from the strand and cool the rails themselves.

A guide rail (US Pat. No. 3,688,833) is also known, in which a metallic part of the rail facing the strand is detachably fastened to a carrier part of the rail by means of bolts. The replaceable, metallic part has water channels for circulating cooling water. This should both cool the strand without the need for spray cooling and also protect the support part of the rail from heat.

It is an object of the invention to provide a strand guide, in particular for slab strands, which allows a strand with a still liquid core to be guided safely with as little heat loss as possible, in order to enable direct rolling at the appropriate rolling temperature without additional heating from outside by heat sources. Furthermore, scaling of the strand in the strand guide is to be avoided and any scale that has already formed should be removed before entry into this part of the strand guide.

This object is achieved according to the invention by the characterizing features mentioned in patent claim 1.

Advantageous further developments and refinements of the invention are mentioned in the further claims.

The strand guide according to the invention with guide rails, which have a ceramic, insulating part facing the strand surface, makes it possible, on the one hand, to guide or support the strand safely and, at the same time, to prevent unwanted heat emission. Safe guiding and support is understood to mean that due to the fact that there is no liquid bulge, there are no harmful bulges due to the ferrostatic pressure. As is known, such bulges have negative effects on the cast product. The undesired heat emission is prevented due to the insulating effect of the ceramic part. This insulation of the strand within the strand guide raises the mean strand temperature, that is to say the mean temperature over the strand thickness in the middle of the strand width, to normal rolling temperature, so that the strand without further heating, with the exception of the edges, by heating ovens, that is to say the supply of heat from outside, the direct further shaping, in particular by rolling, can be supplied. In exceptional cases, for example with wide slabs, an external warming up of the edges may be appropriate. Before it is rolled, the strand can be separated by means of conventional separating units, for example using a burner, after it has completely solidified.

The necessary length of the insulating strand guide is approximately a quarter of the total strand guide length, which is known to have to extend from the lower mold end to the final solidification of the strand to prevent bulges.

It has been shown that the insulating design of the strand guide achieves both an increase in the strand surface temperature and a reduction in the difference between this strand surface temperature and the core temperature of the strand. It is also important that the solidification time and thus the position of the sump tip, i.e. the location of the solidification of the strand is not significantly affected by the insulating effect of the ceramic part of the guide rail.

Since the ceramic parts are advantageously connected to the support parts via metallic bolts, both the necessary counterpressure to the ferrostatic pressure are applied, and the amount of heat removed is predetermined within certain limits by the ratio of the ceramic surface lying on the strand to the metallic surface of the retaining bolts. Furthermore, the ceramic parts can be easily replaced by fastening with retaining bolts. If necessary, the metallic support body can be water-cooled, whereby the heat dissipation can also be influenced.

Direct rolling is also facilitated by descaling the strand with the guide rails before entering the strand guide and preventing the entry of atmospheric oxygen by inert gas in the further course of the strand.

• Fig. 1 schematisch eine Stranggiessanlage, die die erfindungsgemässe Strangführung aufweist,
• Fig. 2 einen Querschnitt nach der Linie II - II der Fig. 1 sowie
• Fig. 3 einen Längsschnitt nach der Linie III - III der Fig. 1.

The invention is illustrated by way of example in the drawings, in which:

• 1 schematically shows a continuous casting installation which has the strand guide according to the invention,
• Fig. 2 shows a cross section along the line II - II of Fig. 1 and
• 3 shows a longitudinal section along the line III - III of FIG. 1st

In Fig. 1, a mold (1), a part of a strand guide (3) consisting of rollers (2,2 ') and a drive-straightening unit (4) is arranged a strand guide part (5) consisting of guide rails (6). In the illustrated bend system for casting slabs, these guide rails (6) located in the horizontal strand guide part on the outfeed side extend in the longitudinal direction of the cast strand (7) and, opposite one another, are each assigned to the inside or outside of the strand. Depending on the strand width, one or more rails are arranged side by side, which, as is known per se, support and guide the strand which has a liquid core by alternating concerns. In the example shown, FIG. 2, six rails are provided per strand side over the width of the slab of 1600 mm. The support extending several meters in the longitudinal direction and the narrow arrangement of the guide rails across the strand width mean that there is no longer any danger of the slab being bulged. In the example, two successive zones (5 ', 5 ") of guide rails each about 5 m long are provided.

As can be seen from FIGS. 2 and 3, a guide rail (6) essentially consists of a ceramic part (10) facing the strand (7), which is attached to a metal support part (12) by means of metallic bolts (11) or the like. is attached. The rails are alternately pressed against the strand by means of a mechanism (not shown), seen along the strand width, moved with it in the direction of the strand, lifted off and returned, whereupon this cycle starts again. Devices for performing this movement are well known from the prior art and are not the subject of the present invention.

The ceramic part (10) can be replaced after wear or if necessary by loosening the bolts (11).

While the part of the strand guide consisting of rollers is initially cooled as much as possible by means of spray nozzles (13), optionally also by means of water-air nozzles, of the strand (7) in order to keep the length of the sump as small as possible, the ceramic part (10) is the Rail guiding is heat-insulating and thus prevents the slab from cooling down undesirably and ensures temperature compensation within the individual strand areas.

The strand surface temperature reached is higher with about 1200 ⁰ C and the strand shell strength lower than conventional continuous casting. This would require smaller support spacings to avoid internal defects in the line. However, these cannot be achieved by rolling.

The ceramic part (10) can consist of a cast refractory mass. The metallic support part (12) is water-cooled by cooling channels (15).

As is well known, the scale caused by the reaction of atmospheric oxygen with the steel surface interferes. A descaling station (16) with high-pressure spray nozzles is therefore provided before entry into the first zone (5 ') of the guide rails (6). As shown in Fig. 2 for only one side of the strand, the entry of atmospheric oxygen is in the area of these zones (5 ', 5 ") by inert gas, which is supplied via the line (17) and via a lateral seal (20) prevented.

After the strand which has now completely solidified is cut in a cutting station (18), the strand sections can be fed directly to a schematically illustrated rolling mill (19).

Claims (5)

1. strand guide of a continuous steel casting plant for producing a directly rollable strand, the strand guide extending in the strand running direction .. having guide rails with an interchangeable part facing the strand, characterized in that this part (10) consists of ceramic material and a metallic Support part (12) is attached. 2. strand guide according to claim 1, characterized in that the ceramic part (10) with the support part (12) is connected by metallic bolts (11), the surface of the strand (7) facing serves to support the strand (7). 3. strand guide according to claim 2, characterized in that the supporting part (12) has coolant channels (15). 4. strand guide according to one of claims 1-3, characterized in that the area of the guide rails is closed by cover means (20) chamber-like before air access and an inert gas supply (17) is provided in this area. 5. strand guide according to claim 4, characterized in that a descaling device (16) is arranged in the strand running direction in front of the guide rails (6).

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