EP0875303A2 - Method for operating a rolling mill for warm and cold rolling flat products - Google Patents

Abstract

The method concerns operation of a mill for hot and cold rolling of flat products in single or multiple arrangements of roll stands with two or more rolls. Control of the roll gap takes place with correction of the force difference between the roll drive and operator ends, and compensation of the settings correcting the bending and balancing forces. The method is characterised by the fact that the control system has an additional corrective quantity formed through measurement of the horizontal forces on all individual rolls.

Description

The invention relates to a method for operating a rolling mill for hot and cold rolling of flat products in single or Multiple arrangement of the roll stands having two or more rolls with one, the differential rolling force between the drive and operator side of the rolling stands, with compensation for the bending and Balancing forces corrective control of the Nips.

The essential, the quality-determining requirements for this Method of rolling flat products, such as hot wide strip or Cold strip on tandem rolling mills or reversing mills is the after compliance with the strip flatness over the entire rolled strip length. The prerequisite for fulfilling this requirement is Adherence to parallel roll gaps in all during the rolling process involved scaffolding that the geometric shape of the cross section determine the volume.

The fulfillment of this requirement is due to the occurrence of differential forces complicated between the individual forces on the drive side and operating side of the rolling mill occur. Such Differential forces are the result of off-center movements during the tape run; they cause an increase in the elongation at the Stator side with the higher rolling force and lead to asymmetries in the course of the tape and thus to flatness errors.

In order to avoid these disadvantages, there is already a regulation proposed, in which the differential forces occurring continuously measured and above the so-called cross module in elongation values the two sides of the stand. These elongation values can by corresponding position setpoints for the two adjustment systems on the drive side and the operating side of the roll stands be compensated. The shape of the roll gap thus remains from unaffected belt run unaffected.

However, this type of regulation is caused by unequal forces at the Bending of the work rolls as well as the balancing of backup rolls and work rolls on the drive and operating side influenced by the inequality of the size of the Lever arms of these forces as a result of the displacement of the rollers and reaction forces resulting from horizontal forces on work rolls, Back-up rolls and if necessary also intermediate rolls.

It has therefore already been suggested the effects of different Forces from balancing and bending systems as well as the different Lever arms to measure and the measurement results to correct the rolling forces on the drive side and operating side to use. However, the mentioned horizontal forces, which, depending on their direction, lead to considerable differential forces in the adjustment systems, not taken into account.

From DE 30 00 187 C2, it is known, on the drive and operator side measurable rolling forces caused by roll displacement, to compensate. This shift is often relatively high Speed, and the resulting horizontal forces are sufficient up to the frictional forces that arise between the rollers. This Horizontal forces are assumed assuming a constant coefficient of friction certainly. The prerequisite is always that the rollers be shifted relative to each other.

The invention is based on the knowledge that those without every horizontal shift occurring, the so-called. internal horizontal forces that need compensation. These inner ones Horizontal forces are created by a kind of screwing action on each other unroll rollers without axial relative movement. The screwing motion is triggered by the entanglement of the rollers within the in the stand window of the roll stands, and the forces reach e.g. on scaffolding in hot-rolled strip finishing lines the order of magnitude 500 kN (approx. 50 t) with the disadvantage known to the rolling mill experts Effects on the parallelism of the roll gap. The conversion in compensation values for the rolling force measurement in the column crossheads does differently than with the above methods, the Measurement of the axial forces on all rolls of the roll stand is necessary.

The invention has for its object the above Avoid disadvantages, especially the effect of the horizontal forces that occur on the uprights of the roll stands and those made from them to eliminate the resulting differential rolling force in the adjustment systems and ensure that there is also a change in the axial forces not change in size and direction during operation the differential rolling force between the drive side and the operator side leads.

This object is achieved in that the regulation before further processing of flat products on, off on all individual rollers measured additional horizontal corrective value is fed. You can do this by using the corrected Differential rolling force using the cross module for a swivel control, the roll gap contour, regardless of the Band position and the force distribution over the bandwidth can stay and continue according to the invention after a roll change for calibration, the compensated differential rolling force after stacking the rollers are regulated to zero. Like the invention Provides further, the measurement of the forces in each Work rolls through, in the carrier of the rolls inserted force transducers and the measurement of the axial forces by measuring the hydraulic bridge done on such rollers that are pulled hydraulically are, if necessary. by actual force transducers in the bearing housing of Roller bearings are arranged.

By measuring the axial forces of all in the respective roll stand located rolls are dependent on the current roll diameters the individual pairs of forces determined. From the sums of The occurring differential rolling force is calculated online. By linking to the cross module there are compensation values intended for the adjustment systems and to compensate for the measured Rolling forces on the drive side and operating side are used.

In connection with the known compensation of bending forces and balancing forces ensure that the Differential rolling force from the drive side to the operating side from all force components are corrected, the cause of which is not in the roll gap is to be searched for.

Claims (6)

Method for operating a rolling mill for the hot and cold rolling of flat products in single or multiple arrangement of the roll stands comprising two or more rolls, with a control of the roll gap correcting the differential force between the drive and operating side of the roll stands, with compensation for the bending and balancing forces control of the roll gap,
characterized,
that the control, before further processing of the flat products, is supplied with additional correction manipulated value formed from horizontal forces measured with all individual rollers. Method according to claim 1,
characterized,
that by using the corrected differential rolling force using the cross module for a swivel control, the roll gap contour is maintained regardless of the strip position and the force distribution over the strip width. Method according to claim 1,
characterized,
that after a roll change for calibration, the compensated differential rolling force is set to zero after the rolls have been placed one on the other. Method according to claim 1,
characterized,
that the measurement of the forces in the individual rolls (work rolls) is carried out by force transmitters used in the carriers of the rolls. Method according to claim 1,
characterized,
that the measurement of the axial forces is carried out by measuring the hydraulic pressures on rollers which are hydraulically displaced. Method according to claim 1,
characterized,
that the measurement of the axial forces is carried out by actual force sensors which are arranged in the bearing housing of the roller bearings.