EP0734800A1 - Strand guide in a continuous casting plant for thin slabs - Google Patents

Abstract

A guide for a thin slab continuous casting machine has guide rollers mounted on opposing frames which are braced against abutment faces by tie-rods, the novelty being that hydraulic cylinders, designed for tie-rod (14,15) extension, are arranged between associated abutment faces of the frames (9,10). Pref. the hydraulic cylinders (17,18) are annular and surround the tie-rods (14,15). Also claimed is a method of adjusting the spacing between the frames of the above guide.

Description

The invention relates to a strand guide of a continuous casting plant for thin slabs, wherein guide rollers are mounted on opposing frames, which are braced against stop surfaces by tie rods.

From DE-A1 26 12 094 a strand guide is known in which the frame supporting the bearings of the guide rollers are connected by several tie rods, the mutual spacing of the frame parts being determined by an annular bracket and spacers located on a tie rod. To brace the frame, two bushes supported with inclined helical surfaces are rotated by a pressure medium cylinder. In the event of strand jamming, the bushings are turned in the relieving direction.

From DE-A1 43 06 853 a strand guide of a continuous casting plant for casting thin slabs is known, the frames of which are connected by piston-cylinder units, a hydraulic ring cylinder and a spacer being arranged between stop faces of the upper and lower frames. With this device, the guide rollers mounted on the frame are set in three defined positions during casting rolling.

The known strand guides are complex and prone to failure.

In contrast, the invention is based on the following problem: With the generic strand guide, the actual spacing of the guide rollers, which determines the strand cross section, depends on the alignment state during the casting operation Strand guidance depends on the tension of the tie rods and the temperature. As a result, wedge-shaped cross-sectional shapes can result from the thin slabs emerging from the strand guide, since the strand cross-section is determined by the distance between the rollers in the area of final solidification.

The object of the invention is to provide a strand guide with a frame mechanically clamped against one another by tie rods, in which an inaccurate alignment or uneven thermal expansion or wear of the guide rollers mounted on the frame can lead to variations in thickness over the slab cross-section during casting operation.

This object is achieved according to the invention in that hydraulic cylinders designed for expansion of the tie rods are arranged between mutually associated stop surfaces of the frames.

This makes it possible to compensate for thickness deviations across the slab cross section with a simple, mechanically structured and thus reliable strand guide. The invention is based on the knowledge that the dimensional differences to be compensated for can be fully compensated for by the achievable expansion of the tie rods.

According to a further feature, the invention proposes that hydraulic ring cylinders enclose the tie rods between the stop faces of the frames.

The hydraulic ring cylinders are connected to a hydraulic pressure source via a valve, to which a control signal is fed from a control system consisting of slab thickness measuring device and computer.

The distance between the opposite rows of rollers of the frame is corrected by continuously measuring the thickness of the slab sides to determine an undersize side of the slab, determining the required expansion of the tie rods on the undersize side from the dimensional difference and applying the pressure required to the hydraulic cylinders.

When the hydraulic cylinders are loaded, the pretensioning of the tie rods and / or the position of the sump tip within the strand guide segment are advantageously taken into account.

Fig. 1

schematisch eine Stranggießanlage für Dünnbrammen,

Fig. 2

einen Abschnitt der Strangführung in Seitenansicht,

Fig. 3

eine Ansicht der Strangführung in Stranglaufrichtung mit seitlichen Teilschnitten und

Fig. 4

die Hydraulikringzylinder mit zugehöriger Beaufschlagungsregelung.

In the drawing, an embodiment is shown with features and advantages of the invention. Show it

Fig. 1

schematically a continuous caster for thin slabs,

Fig. 2

a section of the strand guide in side view,

Fig. 3

a view of the strand guide in the strand running direction with side partial sections and

Fig. 4

the hydraulic ring cylinders with the associated admission control.

In the continuous casting installation shown in principle in FIG. 1, a continuous casting mold 1 for thin slabs 2 is followed by a strand guide consisting of a first section 3 and a second section 4. The cast slab strand 2 is conveyed by a drive device 5 through the strand guide 3, 4 formed from support guide rollers 6, a liquid core as a result of the cooling until it emerges from the section 4 is completely frozen. Below the strand guide 3, 4, the thickness profile of the slab 2 is determined by measuring devices 7. The slab 2 is then deflected by a bending roller 8.

According to FIGS. 2 and 3, the support guide rollers 6 of the second section 4 of the strand guide are mounted on opposite frames 9, 10. The frames 9, 10 have on both sides approximately cylindrical end pieces 11, 12 with through openings 13 for tie rods 14, 15. The tie rods 14, 15 are provided with nuts 16 at their ends projecting outside the frames 9, 10, as a result of which the desired spacing of the support guide rollers 6 and thus the thickness of the solidified slab strand 2 is determined.

The tie rods 14, 15 enclosing hydraulic ring cylinders 17, 18 are arranged between mutually associated end faces of the end pieces 11, 12. The frames 9, 10 are prestressed against the hydraulic ring cylinders 17, 18 by the tie rods 14, 15 with nuts 16 with a force which is greater than the ferrostatic force acting on the strand guide from the proportionate section of the strand which has not solidified.

The hydraulic ring cylinders 17, 18 is assigned a control device shown in FIG. 4, which consists of the components measuring devices 7, computer 19, hydraulic pressure source 21, pressure relief valve 22 and multi-way valve 20. From a dimensional difference determined by the measuring devices 7, the computer forms signals for the pressure relief valve 22 and the multi-way valve 20, as a result of which the hydraulic ring cylinders 17 and 18 located on the undersize side of the slab 2, in order to achieve a uniform cross-sectional profile corresponding to the required expansion of the tie rods 14 and 15, respectively be charged and a uniform slab cross section is achieved.

The invention is not restricted to the exemplary embodiment shown. In particular, known interchangeable spacers can be arranged interchangeably between the frame surfaces for format adjustment, conventional hydraulic cylinders being arranged outside the tie rods separately from the tie rods 14, 15 between the frames 9, 10.

Claims (5)

Strand guidance of a continuous casting plant for thin slabs, with guide rollers being mounted on opposite frames which are braced against stop surfaces by tie rods,
characterized by
that between the mutually associated stop surfaces of the frames (9, 10) designed to stretch the tie rods (14, 15) hydraulic cylinders are arranged. Strand guide according to claim 1,
characterized by
that hydraulic ring cylinders (17, 18) between the stop surfaces of the frame (9, 10) enclose the tie rods (14, 15). Strand guide according to claim 1,
characterized by
that the hydraulic ring cylinders (17, 18) are connected to a hydraulic pressure source (21) via a multi-way valve (20) which is controlled by a control consisting of slab thickness measuring device (7) and computer (19). Strand guide according to claim 1,
characterized by
that only the tie rods (14 and 15) of a strand guide side hydraulic ring cylinders (17 and 18) are assigned. Method for adjusting the distance of opposing frames of a strand guide according to one or more of claims 1-3, with a device according to claim 4,
characterized by
that an undersize side of the slab (2) is determined by continuous measurement of the thickness of the slab sides, the required elongation of the tie rods (14 or 15) on the undersize side is determined from the dimensional difference, and the pressure is applied to the hydraulic cylinders.

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