1. Field of the Invention
The invention relates to a method of casting and immediate rolling and a device for the support, guidance, and deformation of a metal strand, especially a steel cast strand in a continuous casting installation for preliminary sections with soft reduction, wherein beneath a continuous casting mold, on opposite sides of a cast strand, roll carriers, which are located opposite each other, are respectively arranged and the rolls of which are in transport and/or deformation connection with the cast strand.
2. Description of the Prior Art
The need in high-strength supports necessitates that the mid-plane structure of the web and flanges of an H-support section have a segregation from minimal to none and be porosity-free. To meet these requirements a so-called soft reduction can be used in the region of the lowest point of the liquid pool and/or the solidification region. This method was used, up to the present, in bloom continuous casting installations. In the continuous casting installation for preliminary sections, a preform on the flanges can be superimposed on a cast strand already in a continuous casting mold and later the preform can be superimposed also on the webs in a stand with backup rolls.
EP-0450 391 B1 discloses a device for supporting a metal cast strand, in particular for soft reduction, in a casting installation for a roughed strip, and in which beneath the continuous casting mold, on opposite sides of a cast strand, there are provided roll carriers which are located opposite each other and the rolls of which form an operational connection with the cast strand. Each of the roll carriers is arranged in a stationary frame and is divided in a plurality of roll-carrying segments connected with adjusting devices, with the roll-carrying segments being so hingedly connected with each other that each segment can be separately adjusted and set at an arbitrary angle relative to the cast strand, and with the overall adjustment of the roll carrier being effected by an upper adjustment device. Such an arrangement of hingedly connected with each other, roll carriers, require, however, use of a stationary frame extending over the entire length for absorbing the forces, which is expensive and is required over the entire strand.
An object of the invention is a preliminary section, in particular, a steel H-section, with a rolling process being effected in the soft reduction area, with the associated device having a roller carrier occupying the smallest possible space and having high supporting forces, and with the soft reduction of the preliminary section strands being effected so that the mentioned segregations and porosities do not occur or occur not at the same degree as before.
The object of the invention is achieved by a method discussed above in which, according to the invention, the preliminary section is precast in a continuous casting mold with a bulge on the flanges and on the surface of the web of the preliminary section, and the bulges of the flange and the web of the preliminary section are rolled flat in the soft reduction area in such a way that the outer surfaces of the flange and the web surfaces of the preliminary section are largely plane. In this way, the segregations and porosities in the web and the flanges oppose each other and, therefore, hardly occur. Advantageously, according to the inventive method the bulges of surfaces of the preliminary section web and of the flange outer surfaces are formed as slightly curved outwardly, arcuate bulges.
The object of the invention is also achieved by a device in which within the strand guide in the solidification region for soft reduction, a plurality of arranged one after another, support and deformation rolls are sectionwise conically adjusted, with respect to the preliminary section web and/or the flanges with an increasing, in a strand displacement direction, force. Thereby, in the soft reduction area, the flanges and the web are so deformed that the segregations are noticeably prevented. Besides, the porosities are eliminated.
According to an embodiment of the invention the bulges on the preliminary section web and/or the flange outer surface, which were precast in the continuous casting mold, in the solidification region for soft reduction, are deformed in a finished preliminary section by a conical adjustment of one or more roll carriers. The desired compactness of the material, together with the elimination of the mid-flange segregations and porosities, is furthered by the high compactness.
The obtaining of a finished preliminary section is achieved according to the invention by forming an angularly adjustable roll frame of a section of a plurality of arranged one after another support and deformation rolls. Thereby, during the adjustment of the roll frame all of the rollers would be adjusted in accordance with the adjustment angle.
An independent adjustment with respect to the flange outer surfaces is obtained by forming, over the length of the soft reduction area, of the support and deformation rolls in the roll frame, adjustable flange roll groups for the cast strand flanges.
Correspondingly, an independent adjustment with respect to the preliminary section web is obtained by forming, over the length of the soft reduction area, of the support and deformation rolls in the roll frame, adjustable web roll groups for the preliminary section of the cast strand.
According to a further improvement of the present invention, a roll frame for the strand upper surface consists of elongate roll frames extending parallel to the strand displacement direction and connected with each other by cross-beams, and in that on the elongate roll frames in the front region and the rear region, respective supports for the deformation effecting elements are provided. Thereby, a compact device capable of handling high adjustment forces is obtained. In addition, there are provided attachment surfaces for the rotary supports the axes of which form axes of the horizontal support and deformation rolls.
Analogous to the improvement of the device discussed above, respective roll frames are formed for the strand narrow sides each consisting of a pair of elongate roll frames extending parallel to the strand upper side and connected with each other pro a cast strand side, by a plurality of cross-beams extending transverse to the strand displacement direction. Thereby, the support and deformation rolls with transverse axes can be easily commonly adjusted with respect to the flange outer surfaces.
The deformation forces are provided by the pairs of parallel, narrow-side roll frames of both strand sides which have their respective ends connected by tie rods extending transverse to the strand displacement direction. The tension force can be precisely adjusted.
The tie rods are formed as controlled hydraulic piston-cylinder units. Thereby, the deformation force can be easily adapted.
Constructively, the connection of the roll frames for the strand upper surface and the strand narrow sides is advantageously achieved by forming the transverse deformation effecting elements of controlled piston-cylinder units the piston rods of which extend through slot-shaped openings of the parallel small side rod frames, and are secured to the base frame.
The drawing shows and embodiment of the invention that would be described in detail below.
The single FIGURE of the drawing shows a perspective view of the device.
A device for supporting, guiding, and deforming a metal strand, in particular a steel cast strand 1 is implemented in a continuous casting installation for preliminary sections, in particular H-sections, with soft reduction, wherein beneath a continuous casting mold (not shown in detail), there are arranged, opposite each other and on opposite sides 1a (left strand side) and 1b (right strand side) of the cast strand 1, roller carriers 2 support and deformation rolls 3 of which are in transport and/or deformation connection with the cast strand 1 and which form a strand guide 4. Within the strand guide 4, in the solidification region 5 for soft reduction, the support and deformation rolls 3, which are arranged one behind the other, are sectionwise conically adjusted, with respect to a preliminary section web 6 and/or flanges 7, with an increasing deformation force in the displacement direction 13. In the solidification region 5 for soft reduction, the preliminary section, which is cast in the continuous casting mold with the bulges 6a on surfaces 6b of the preliminary section web and/or an outer surfaces 7a of the flanges, is deformed into a finished preliminary section.
The preliminary formed bulges 6a are formed by the surfaces 6b of the preliminary section web and/or the outer surfaces 7a of the flanges 7, which extend to each other so that they form an obtuse angle.
The plurality of the arranged one after another, support and deformation rolls 3 form, on opposite sides 1a, 1b and on the strand upper surface 12 of the cast strand, conically adjustable roll frames 8. In the roll frames 8, over the length of the soft-reduction area 9, the support and deformation rolls 3 form flange rolling sets 10 that are commonly adjusted relative to the flanges 7 of the cast strand 1. In this way, paired elongate roll frames 8a and narrow side roll frames 8b are formed. In the same manner, the support and deformation rolls 3 form, in the roll frames 8 over the length of the soft reduction area 9, web rolling groups 11 adjustable relative to the preliminary section web 6 of the cast strand 1.
The roll frames 8 are so formed that the roll frame 8 for the strand upper side 12 is formed of two elongate frames 8a which extend parallel to the strand displacement direction 13 and are connected with each other by a plurality of cross-beams 14. In the front region 15 and in the rear region 16 of both elongate roll frames 8a, there are provided, respectively, supports 17 for deformation effecting means 18 extending transverse thereto.
Correspondingly, respective roll frames 8b are formed for the strand narrow sides 19 and which are formed of extending parallel to the strand upper surface 12, pairs 8c of respective elongate roll frames 8a. The narrow side roll frames 8b are connected with each other by a plurality of spaced cross-beams 20 extending transverse to the strand displacement direction 13. The pairs 8c of a parallel small side roll frames 8b of the two strand sides 1a and 1b are connected with each other, at their ends 22, by a tie rod 23 extending transverse to the strand displacement direction 13, with a pivot support 8e being provided at an end 21 for the unit of pairs 8c with cross-beams 20. Thereby, the units are adjustable in an approximately horizontal plane away from and toward each other. The tie rod 23 is formed of a controlled piston-cylinder unit 23a. The tie rod 23 extends through openings 23b of both elongate roll frames 8a which extend parallel to the strand displacement direction 13. The piston-cylinder units 23a are connected with connection rods 8d of the narrow side roll frames 8b by articulated heads 23c.
The transverse deformation effecting means 18, which are likewise formed of controlled piston-cylinder units 18a, have their piston rods 18b extending through similar slot-shaped openings 24 in the narrow side roll frames 8b and hingedly secured in the base frames 25.
Number | Date | Country | Kind |
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100 62 868 | Dec 2000 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP01/14068 | 12/1/2001 | WO | 00 | 11/24/2003 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/47849 | 6/20/2002 | WO | A |
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Number | Date | Country | |
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20040216300 A1 | Nov 2004 | US |