EP0934786A1 - Process of continuous casting of metal and continuous casting plant for carrying out the method - Google Patents

Abstract

The aim of the invention is to create an installation comprising a straight permanent mold (9) out of a continuous casting installation having a curved permanent mold (1), whereby as many components as possible of the continuous casting installation having the curved permanent mold (1) can be used for additional applications. To this end, the straight casting which exits the straight permanent mold (9) is, in at least one bending zone (12), curved along a transition curve to form the shape of a circular arc comprising a first radius (Rmin). In addition, said casting is, in at least one successive straightening zone (14), curved along a transition curve to form the shape of a circular arc comprising a second radius (Rend) which is larger than the first radius (Rmin). Said radius (Rend) preferably corresponds to the shape of the circular arc of an initial continuous casting installation having a curved permanent mold (1).

Description

The invention relates to a method for the continuous casting of metal, in particular Steel strands, by pouring the metal into a straight, vertically aligned mold and Subsequent removal of the straight strand formed in the mold, the straight Strand initially in a bending zone along a transition curve into a circular arc shape bent a radius, guided along a circular arc with the radius, then straightened in a final straightening zone along a transition curve and is then conveyed over an approximately horizontal straight line, as well as a Continuous caster for carrying out the method and a method for converting a Continuous caster with an arc mold into a continuous caster with a straight mold.

It is known, for example from AT-B - 373 518 and AT-B - 331 439, for production of a metal strand using a straight mold, i.e. a Mold, the cavity in which the liquid metal is poured, just formed and is aligned vertically. After leaving the mold, the strand is passed over a Leadership with a roller system, either in support segments or in continuous Side members are installed, guided and cooled, so that the still thin strand shell is adequately supported against bulging caused by the ferrostatic pressure. First of all, the strand below the mold is usually guided in a straight line led, which extends over a length that the strand due to the direct cooling below the mold secures a sufficiently strong strand shell so that the strand can then be bent in a bending zone such that it is along a Circular arc guide that connects to the bending zone and a predetermined radius has, can be promoted. An end straightening zone adjoins the circular arc guide in which the strand is again straightened. In the straight state The strand is conveyed over an approximately horizontally aligned straight guide.

It is also known, for example from AT-B - 249 896, for generating a Metal strand in the continuous casting process, avoiding a bending zone, the strand already cast in an arc shape, in a so-called arc mold. With one Arc mold is the cavity into which the liquid metal is poured, arcuate, preferably formed in a circular arc, so that the strand emerging from the mold be supported and promoted directly after exiting using an arcuate guide can. In this case there is only one end straightening zone at the end of the circular arc to arrange, in which the strand is again straightened, so that it then as described above are conveyed on an approximately horizontally arranged straight guide can.

Continuous casting plants with arc molds were built worldwide; have these attachments however, metallurgical disadvantages, which can be seen primarily in the fact that with the pouring jet introduced impurities and gas bubbles that go deep into the liquid core of the strand penetrate, can no longer climb to the mold level as easily as with a straight one Mold. The flow conditions in an arc mold are less favorable, so that disruption in shell growth is more likely.

For these reasons, attempts have been made to use continuous casting machines with arc molds Converting continuous caster with a straight mold. Do you want the same one? Use the strand guide as used in the original continuous casting machine with an arc mold was provided, one is forced to give the arcuate strand guide a bending zone to arrange and to align a straight continuous casting mold above it. However, this presents difficulties because then the level of the straight mold is far above the height the originally intended arc mold. This is not acceptable since below Circumstances not only need to be enlarged, but the whole Hall concept must be redesigned, because there must be the casting platform, intermediate vessels and the pan support tower and the feed of the pans etc. adapted to the new level become. The result is a complete redesign of the casting hall, which is accordingly is costly and on the other hand requires a long shutdown of the foundry.

Another option is to replace the circular arc guide, etc. by a Circular arc guide, suitable for the straight mold with a downstream bending zone. This is however, also very complex and expensive, so that in most cases the has accepted the metallurgical disadvantages of an arc mold.

The invention has for its object a method for continuous casting and a Continuous caster to carry out the process in which the strand under Using a straight mold and using the most important components a continuous caster with a curved mold, e.g. the circular arc guide, casting platform etc. can be poured. Another object of the invention is in a continuous caster with a straight mold, about the height required by a continuous caster with curved Has mold with the same radius of the casting strand or the circular arc guide. Necessary conversions when changing from an arc mold to a straight mold should be minimized in terms of time and costs.

The task is the beginning of a method for continuous casting of a metal strand described type in that the strand in at least one bending zone along a Transition curve is bent into a circular arc shape having a first radius and in at least one downstream directional zone along a transition curve into a Arc shape with a larger radius than the radius that the strand after the first Has bending zone, is bent, the larger radius preferably the radius of the Circular arc guidance in front of the final straightening zone corresponds.

The strand having a first radius is preferably between the first Bending zone and the first subordinate straightening zone along a circular arc guide this first radius, advantageously the straight strand emerging from the mold between the mold and the first bending zone along a vertical straight line becomes.

If the radius of the circular arc guide is very large, the strand after the Bending in the first straightening zone downstream of the bending zone in at least one other downstream directional zone in a circular arc shape with a larger radius than the radius that the strand has in front of the downstream straightening zone, bent.

For large radii of the circular arc guide, according to a variant on the strand after the Deform at least one other in the first bending and downstream straightening zone Deformation can be carried out in a further bending and downstream straightening zone.

A continuous caster for carrying out the method according to the invention with a straight mold, with one of these downstream in the strand extraction direction a bending zone, a circular arc guide and an end straightening zone followed by approximately Horizontal straight guidance is characterized in that at least one bending zone at least one straightening zone with subsequent circular arc guidance is arranged downstream.

One is advantageous between the first bending zone and the first straightening zone Circular arc guidance provided, expediently between the mold and the first Bending zone a vertical straight guide is provided for the strand.

According to one variant, at least after the first bending and downstream straightening zone a further bending zone with a downstream straightening zone is provided.

A preferred embodiment is characterized in that according to the AT-B - 331 439 the course of the curve caused by the bending zone (s) or straightening zones Elongation of the strand in at least one of the two transition areas approximately the shape of an obliquely distorted "S" with a turning tangent, the slope on The beginning and end of the expansion curve plotted over the area is zero on the X axis of a Cartesian coordinate system, the origin of which is on The beginning of the transition curve is located and its X-axis is a tangent to the Represents transition curve.

The slope of the turning tangent suitably corresponds to a maximum of one permissible change in elongation of 0.0025% / mm for bending and 0.0030% / mm for Judge.

The transition curve preferably follows the differential equation of the change in curvature (y "') y '''=ϕ' (x j ) · 1 R E 0 X E ∫ϕ ' x j dx and if ϕ '(x _j ) is the function of the change in elongation, which has a course which initially rises from zero, then reaches the maximum of the elongation change and then decreases again to zero over the extension of the bending or straightening zone, R _E equals the arc radius at the end of the bending or at the beginning of the straightening zone and X _E the vertical projection of the bending zone or the horizontal projection of the straightening zone, and x _{j represents} a position coordinate in the coordinate system.

• daß die Bogenkokille und ein daran anschließender Teil der Kreisbogenführung entfernt werden,
• daß eine gerade Kokille an einer Stelle der Stranggießanlage eingebaut wird, deren Entfernung zum Krümmungsmittelpunkt der Kreisbogenführung geringer ist als der Radius der ursprünglichen Kreisbogenführung,
• daß eine eine Übergangskurve aufweisende Biegezone fluchtend zur geraden Kokille eingebaut wird, aus der der Strang mit einem ersten Radius, der geringer ist als der Radius der Kreisbogenführung, austritt, und
• daß der Biegezone nachfolgend mindestens eine Richtzone eingebaut wird, aus der der Strang mit einem zweiten Radius, der größer ist als der erste Radius, austritt, und welcher zweite Radius vorzugsweise dem Radius des in der Stranggießanlage verbleibenden Teils der ursprünglich vorhandenen Kreisbogenführung entspricht und in diese Kreisbogenführung fluchtend, d.h. tangentengleich übergeht.

A method for converting a continuous caster with an arc mold, an adjoining circular arc guide and an end straightening zone with a subsequent approximately horizontal straight guide into a continuous caster with a straight, vertically oriented mold is characterized in that

• that the arc mold and an adjoining part of the circular arc guide are removed,
• that a straight mold is installed at a point on the continuous caster whose distance from the center of curvature of the circular arc guide is less than the radius of the original circular arc guide,
• that a bending zone having a transition curve is installed in alignment with the straight mold, from which the strand emerges with a first radius which is less than the radius of the circular arc guide, and
• that at least one straightening zone is subsequently installed in the bending zone, from which the strand emerges with a second radius that is larger than the first radius, and which second radius preferably corresponds to and into the radius of the part of the original circular arc guide remaining in the continuous casting installation Circular arc alignment in alignment, ie passes tangent.

It is advisable to use a circular arc between the bending zone and the first straightening zone built-in.

According to a preferred variant, there is a between the mold and the bending zone Straight guide installed in alignment with the mold.

In order to find the end with a not too strong bending of the strand, it is advantageous the straight mold is installed in the caster at a level that is different from the level the arc mold deviates only slightly, preferably lies slightly above this level, whereby the deviation from the level of the arc mold depends on the height of the hall installed crane system etc. As a "small height deviation" is usually one referred to, in which a reconstruction of the hall structure can be avoided in any case; As a rule, the height deviation for conventionally designed casting halls is ½ m to maximum one meter.

For large radii of circular arc guidance, it has proven to be useful if after the first straightening zone another straightening zone with a subordinate one Circular arc guide is installed.

According to another variant, it is expedient for large radii of the circular arc guidance if after the first bending and subordinate straightening zone at least one further bending and downstream straightening zone is installed.

The invention is based on an embodiment shown in the drawing is illustrated, explained in more detail, wherein the Fig. is a schematic side view of a Continuous caster with straight mold and curved mold shows.

In the figure, an arc mold 1 with the one adjoining it is shown with dashed lines Strand guide 2 illustrates, the strand guide to simplify the illustration 2 in the upper area - i.e. immediately below the bow mold 1 - only by one dashed line, which illustrates the outside or underside of the strand. This Strand guide 2 is, as usual, of support and adjoining the mold Guide rollers 2 'formed, the strand on both sides, ie on the outside or bottom and also support on the inside or top at close intervals. The one with a dashed line The illustrated bottom or outside of the strand thus forms an envelope of all of these Roll.

The casting platform 3 lies approximately at the height of the upper edge of the arc mold 1. The interior 4 of the arc mold 1, ie the continuous cavity 4, into which the molten metal flows via a conventional ladle (not shown) into a likewise not shown but conventionally designed intermediate vessel and flows from this over a pouring tube into the arc mold 1, is designed in an arc shape, etc. circular arc. The circular arc guide 2 adjoining the arc mold 1 has a radius R _end . The center point 5 of this circular arc guide is located approximately at the level of the lower half of the arc mold 1 and thus by the height Ho below the mold level 6 of the arc mold 1.

At the circular arc guide 2, which does not extend completely over a quarter circular arc, connects a straightening zone 7, in which the strand is straightened by means of support and bending rollers becomes. The straightening zone 7 advantageously has a transition curve according to AT-B - 331 439 um to ensure a gentle straightening of the strand. Following the straightening zone 7 an approximately horizontally oriented straight guide 8 is provided, which is also closely adjacent Has support and guide roles. The strand runs along this straight guide 8 conveyed out, then separated into individual strand pieces or directly rolled. The Straight guide 8 can also deviate from the horizontal; so are 5 ° ± from that Horizontal easily possible.

A solid caster is shown in full lines in the figure, in which instead of Arc mold 1 a straight mold 9 is used. As can be seen from the figure this straight mold 9 by a horizontal amount HH compared to the curved mold 1 in Direction to the center 5 of the circular arc guide 2 arranged offset.

In addition, this straight mold 9 is also offset by a small amount in terms of height relative to the curved mold 1, etc. raised by the height H _v . A vertically oriented straight guide 11 adjoins the straight mold 9, ie a mold 9 with a vertically oriented and rectilinear cavity 10 into which the molten metal is poured. This ensures a purely vertically aligned section of the cast strand, which ensures efficient cleaning, ie rising of impurities and gas bubbles which are flushed into the liquid core of the strand with the pouring jet.

Subsequent to the vertical straight guide 11, a bending zone 12 is provided, the one Has transition curve, along which the strand from straight to a circular arc shape is bent. This transition curve is also expedient according to AT-B - 331 439 designed.

The circular arc shape has a radius R _min which is smaller than the radius R _{end of} the circular arc guide 2, which was provided for the arc mold 1. Downstream of the bending zone 12 is a circular arc guide 13 with the radius R _min, which extends only over a smaller radius angle of approximately 20 °. A straightening zone 14 adjoins this circular arc guide 13, in which the strand is slightly straightened, etc. is bent precisely to the radius R _end that the circular arc guide 2 originally intended for the arc mold 1 has. R _min is to be selected depending on the material to be cast, the casting speed and the casting thickness (strand thickness). When choosing R _min it should be noted that the strand shell is not subjected to excessive loads (no excessive change in elongation) when it is bent for the first time.

The closer the straight mold 9 is moved to the center of curvature 5, the sooner it is possible to maintain a level 3 of the curved mold 1 for the straight mold 9 - despite a relatively long straight guide 11 - but with a reduction in R _min , especially if one long vertical straight guide 11 is desired.

In this way it is possible to transfer the strand from a straight mold 9 into the To bring circular arc guide 2 of the arc mold 1 without the straight mold 9 far must be raised. So you can do it with only a minor modification - it just has to the first part 15 of the circular arc guide 2, which starts from the arc mold 1 and extends up to extends to the end of the newly established straightening zone 14, are removed - all to take advantage of the metallurgical advantages of the straight mold. The tundish and the Pan support tower can be used without further ado, if necessary after only slight increase. This does not affect the casting hall itself.

It can be seen from the figure that a slight shortening of the straight mold 9 subsequent vertical straight guide 11 would suffice, and the straight mold 9 would come to be exactly at the level at which the bow mold 1 was located.

It is essential for the invention that the strand emerging from the straight mold 9 is first bent to a radius R _min which is smaller than the radius R _{end of} the circular arc guide 2 of the arc mold 1, and only then is it bent to this radius R _end . This bending of the straight strand to the radius R _end can also take place in several stages, for example by arranging several straightening zones 14 one behind the other, but also by bending in a first bending zone 12 which bends the straight strand to a narrower radius R _min than the radius R _{end of} the circular arc guide, then aiming at a slightly larger radius than R _min , which the strand assumes when it leaves the first bending zone, this process also being able to be repeated several times, until the radius R _{end of} the circular arc guide of the arc mold is reached . These variants with multiple straightening or multiple bending straightening can be used advantageously if it is desired that the straight mold 9 is exactly at the level 3 of the arch mold 1 removed.

Claims (18)

Process for the continuous casting of metal, in particular steel, strands, by pouring the metal into a straight, vertically aligned mold (9) and then pulling off the straight strand formed in the mold (9), the straight strand initially in a bending zone along a transition curve in a circular arc shape with a radius (R _end ) bent, guided along a circular arc guide (2) with the radius (R _end ), then straightened in an end straightening zone (7) along a transition curve and then conveyed out via an approximately horizontal straight guide (8) characterized in that the strand is bent in at least one bending zone (12) along a transition curve into a circular arc shape having a first radius (R _min ) and in at least one downstream directional zone (14) along a transition curve into a circular arc shape with a larger radius ( R _end ) as the radius (R _min ) that the strand has after the first bending zone is curved, the larger radius (R _end ) preferably corresponding to the radius (R _end ) of the circular arc guide (2) in front of the final straightening zone (7). Method according to claim 1, characterized in that the strand having a first radius (R _min ) is guided between the first bending zone (12) and the first downstream straightening zone (14) along an arcuate guide (13) with this first radius (R _min ) . A method according to claim 1 or 2, characterized in that the mold (9) emerging straight strand between the mold (9) and the first bending zone (12) along a vertical straight guide (11) is guided. Method according to one or more of claims 1 to 3, characterized in that the strand after bending in the first straightening zone (14) downstream of the bending zone (12) in at least one further downstream straightening zone into a circular arc shape with a larger radius than the radius ( R _min ), which the strand has in front of the downstream straightening zone, is bent. Method according to one or more of claims 1 to 4, characterized in that that on the strand after deformation in the first bending and downstream straightening zone (11, 14) at least one further deformation in a further bending and downstream Straightening zone is carried out. Continuous caster for performing the method according to one or more of the Claims 1 to 5 with a straight mold (9), one of these in strand pulling alignment Subordinate strand guide with a bending zone (12), a circular arc guide (2) and an end straightening zone (7) with subsequent approximately horizontal straight guidance (8), thereby characterized in that at least one bending zone (12) has at least one straightening zone (14) subsequent circular arc guide (2) is subordinate. Continuous caster according to claim 6, characterized in that between the first Bending zone (12) and the first straightening zone (14) a circular arc guide (13) is provided. Continuous caster according to claim 6 or 7, characterized in that between the The mold (9) and the first bending zone (12) have a vertical straight guide (11) for the strand is provided. Continuous casting installation according to one or more of claims 6 to 8, characterized characterized in that after the first bending and subsequent straightening zone (12, 14) at least one further bending zone with a downstream straightening zone is provided. Continuous casting installation according to one or more of claims 6 to 9, characterized characterized in that the one caused by the bending zone (s) (12) or straightening zones (7, 14) Course of the elongation of the strand in at least one of the two transition areas has the shape of an obliquely distorted "S" with a turning tangent, the Slope at the beginning and end of the zero strain curve plotted over the area is related to the X axis of a Cartesian coordinate system, the origin of which is is located at the beginning of the transition curve and its X axis is a tangent to the Represents transition curve. Continuous caster according to claim 10, characterized in that the slope of the Reversal tangent at most a maximum allowable change in the elongation of 0.0025% / mm for bending and 0.0030% / mm for straightening. Continuous caster according to claim 10 or 11, characterized in that the transition curve of the differential equation of the change in curvature (y ''') y '''=ϕ' (x j ) · 1 R E 0 X E ∫ϕ ' x j dx follows and ϕ '(x _j ) is the function of the change in elongation, which over the extension of the bending or straightening zone (12, 14, 7) initially increases from zero, then reaches the maximum of the change in elongation and then decreases again to zero R _{E is} equal to the arc radius at the end of the bending or at the beginning of the straightening zone (12, 14, 7) and X _{E is} the vertical projection of the bending zone (12) or the horizontal projection of the straightening zone (14, 7), and x _{j represents} a position coordinate in the coordinate system. Process for converting a continuous caster with an arc mold (1), an adjoining circular arc guide (2) and an end straightening zone (7) with a subsequent approximately horizontal straight guide (8) into a continuous caster with a straight, vertically aligned mold (9), thereby featured, that the arc mold (1) and an adjoining part (15) of the circular arc guide (2) are removed, that a straight mold (9) is installed at a point on the continuous caster whose distance from the center of curvature (5) of the circular arc guide (2) is less than the radius (R _end ) of the original circular arc guide (2), that a bending zone (12) having a transition curve is installed in alignment with the straight mold (9), from which the strand emerges with a first radius (R _min ) that is less than the radius (R _end ) of the circular arc guide (2), and that the bending zone (12) is subsequently installed at least one straightening zone (14) from which the strand emerges with a second radius (R _end ) which is greater than the first radius (R _min ), and which second radius (R _end ) preferably corresponds to the radius (R _end ) of the part of the originally existing circular arc guide (2) remaining in the continuous casting installation and passes into this circular arc guide (2) in alignment, ie, tangent to it. A method according to claim 13, characterized in that between the bending zone (12) and the first straightening zone (14) a circular arc guide (13) is installed. A method according to claim 13 or 14, characterized in that between the The mold (9) and the bending zone (12) are aligned in a straight line with the mold (9) (11) is installed. Method according to one or more of claims 13 to 15, characterized characterized in that the straight mold (9) at one level in the continuous caster is installed which deviates only slightly from the level (3) of the arc mold (1), is preferably slightly above this level (3). Method according to one or more of claims 13 to 16, characterized characterized in that a further straightening zone follows the first straightening zone (14) downstream circular arc guide is installed. Method according to one or more of claims 11 to 17, characterized characterized in that after the first bending and subsequent straightening zone (12, 14) at least one further bending and downstream straightening zone is installed.

Images