JPS60244414A - Roll stand and method of flat-rolling metallic strip by rollstand - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION BACKGROUND OF THE INVENTION The present invention is a method of flat rolling metal strips.
a rolling stand for rolling), in particular a multi-roller rolling stand, having a plurality of guide rollers arranged upstream and downstream of the rolling stand in the direction of strip running and partially wrapped by the strip; It concerns a rolling stand in which at least one of these guide rollers can be made oblique to the strip running direction by means of an adjusting device in order to influence the strip running direction.

It is known to divide into intermediate and/or thin strips by cutting wide strips produced by hot rolling and winding into bundles. The resulting strip is then likewise wound up into bundles and further rolled or finished rolled by cold rolling. It is not uncommon for hot rolled wide strips to exhibit an inconstant-thickness profile (convex-convex). The intermediate and/or rattan strips made from the edge area of such wide strips have a trapezoidal cross section. During the rolling of such strips, the strip tends to deflect sideways in the nip of the rolls, even though the strip is clamped by tension between the unwinding reel and the takeoff reel. Strip misalignment within the roll nip is reduced by reducing area loss per pass. However, this also means a slight increase in the number of passes required for annihilation.

In order to influence the direction of strip running, the known guide rollers used can be made oblique to the direction of strip running, so that one edge of the strip reaches the guide roller faster than the opposite edge. (VerelnDeutscher Ei)
sen hG ttenleute + Manufacture of cold rolled strings, Part L 1970+ Verlag
5tahl-Eisen mbH+Düsseldorf,
Pages 101-105; West German Practical Firewood Plan No. 8, 112, 755
issue). In the case of these known guide rollers for adjusting and/or correcting the running direction of the strip, the pivot axis of the guide roller is located in the center of the guide roller and/or outside the center of the strip. Minutes in longitudinal direction
Attempts to control the strip run with known guide rollers during flat rolling of intermediate or thin strips of trapezoidal cross-section which are squeezed from the flange region of the wide strip to be rolled have not yielded satisfactory results. .

[Summary of the invention]

It is an object of the present invention to provide a rolling stand and a method for flat rolling a metal strip that completely prevents lateral displacement of the IJ during rolling.

This purpose is achieved in a rolling stand of the type mentioned above, in which the pivot for the slanting of one or both of the guide rollers is located in the central region of the guide roller and/or the strip, and the adjustment The device is connected to a control device which detects with all the strip track sensors upstream and downstream of the roll nip and sends a regulating signal r to the regulating device in the event of a deviation between the desired value and the actual value.

, by a rolling stand characterized by sending.

An inventive development is that each guide roller has a deflection roller (d
(evitating roller) and consists in that the outflow line and/or inflow line of the wrapping area of the deflection roller in contact with the strip falls in the plane of the roll nip.

As for the method, the object is that, in the case of the rolling stand according to the invention, a central strip running path is obtained by adjusting at least one idle roller during the strip running before the start of rolling, and that the rolling run is maintained from the start of rolling. Achieved when maintained during.

The lateral force causing the lateral displacement of the strip is
Depending on the rolling force, strip profile and rolling speed, the strip tension is inhibited (restrained) by a more or less oblique positioning of one or both of the guide rollers from the beginning, which can be overcome by adjusting devices. It is simply impossible for a primary lateral force to develop that cannot be achieved.

Thus, during the entire rolling operation the strip is maintained within the range of the rolling caliber within which it can be rolled with minimum tolerances. Since the strip can be rolled with maximum rolling force and at maximum speed, rolling stock and intermediate annealing are saved.

[Detailed description of embodiments of the invention]

In the drawings showing an embodiment of the present invention, a rewind reel 1
From there, the strip 2 passes over a first guide roller 3 and a second idle roller 4 into the roll nip (roll gap 7') of a multi-roll rolling stand 5. On the exit side, the strip passes over a third guide roller 6 and a fourth idle roller 7 to a winding device 8 . Gaid roller 3
, 4 are partially wrapped by the strip 2. The degree of wrapping is increased by guide rollers 4.6, which guide the strip in a straight line passing through the gap between the rolls of the multi-roll rolling stand 5.

The guide rollers 3, 7 are arranged obliquely to the center of pivots 9.1OJ&: these pivots are in the center of the rollers and are perpendicular to the roller axis. These guide rollers 3, 7 are moved by Xa devices 11.12, which are regulated by a control device 13 with a StrigEzzo detection sensor.

The multi-roll roller rolling stand with a storage guide means according to the present invention functions as follows.

At the lowest strip speed and before rolling, the central strip run is adjusted somewhat by the mentioned slanting of the idle rollers 3, 4. Since the idle rollers 3, 7 are rotated about central pivots 9, 10, no excessive tensioning of the strip on one side occurs. As soon as the rollers of the multi-roller rolling stand 5 are used, in the case of an asymmetrical profile of the strip, a transverse force develops which causes the strip f2
create a tendency to swerve to the side. Very small deviations are detected by the sensor 14.15 and reversed by more or less slanting via the control device 13 and the regulating device 11.12. As soon as lateral forces appear, they act in opposition, so that the required reaction forces are small and can be easily balanced by the fA adjustment device 11.12. This means that the rolling stand can ultimately be operated with maximum rolling force and at maximum speed. This has a positive effect on both productivity and strip tolerances.

[Brief explanation of the drawing]

1 is a schematic side view of a multi-roller rolling stand with strip guiding means; FIG. 2 is a plan view of the multi-roller rolling stand of FIG. 1; and FIG. 3 is a schematic side view of a multi-roller rolling stand with strip guiding means; FIG. FIG. A...Full width, B, C and D...Divided width, 2...
Strip: 7', 3, 4, 6.7... Guide roller, 5... Multi-roller rolling stand, 8... Take-up reel, 9.10... Pivot, 13... Control device, 1
4.15...''''-- Margin Fig below. 3 F i g, 2

Claims (1)

[Claims] 1. A rolling stand for flat rolling a metal strip, in particular a multi-roll rolling stand, which is arranged upstream and downstream of the rolling stand in the strip running direction and partially wrapped by the strip. In a rolling stand, which has a plurality of guide rollers arranged in a row, at least one of which can be made oblique to the strip running direction by means of an adjusting device in order to influence the strip running direction, the said guide rollers Axis (9, 10) for oblique one or both of 3°7)
7 is located in the central region of the roller and/or the strip, and the adjusting device (11, 12) is connected to a control device (13), which controls the roll gap (5).
The strip track is connected to a sensor (1) upstream and downstream of
4. A rolling stand, characterized in that it is detected by IJ and sends an adjustment control signal to the adjustment device (11, 12) in case of a deviation between the desired value and the actual value. 2. Each of said guide rollers (3, 7) is associated with a deflection roller (4, 6), the outflow line and/or inflow line of the wrapping area of said deflection roller in contact with said strip being in said roll nip. The rolling stand according to claim 1, characterized in that the rolling stand is located in a plane with. 3.% In the method for flat rolling a metal strip on a rolling stand according to claim 1, the center stage)
A metal strip characterized in that a +7 horn running path is obtained by adjusting at least one guide roller (3, 7) during the strip running before the start of rolling and is maintained from the start of rolling during rolling. flat rolling method.