EP0599277B1 - Method and device for controlling the thermally-caused contour of working rolls - Google Patents

Abstract

In order to bring the thermally caused contour of working rolls closer to a desired contour when rolling strip, especially in the strip-edge contact area, covering shells which can be adjusted in their position relative to the working rolls are proposed and these can be used to influence the surface temperature of the working rolls in the strip-edge area. <IMAGE>

Description

The invention relates to a method and an apparatus for Implementation of the method according to the preamble of claim 1.

When hot rolling strip materials takes place without the correction Actuators due to the influence of the thermal load the crown of the work rolls with increasing rolling material throughput constantly to. Due to the changing thermal crowning the roller contour increasingly deviates from the target contour.

It is known the thermal contour of the to be rolled Roll strip center by suitable actuators such as displacement and / or Bending members, e.g. B. "CVC" shift or suitable cooling in the sense of aligning the actual contour to the target contour of the Affect work rolls. The contour of the rollers in the contact area with the band edges, however, can only be influenced insufficiently. Also rolling of strip material of different widths or the cyclical shifting of the work rolls against each other hardly results in an improvement of the thermally induced rolling contour in the band edge contact area.

JP-A 54 023 060 is a roller crown control device become known in the axial direction of the work rolls has displaceable locking plates which, depending on the Location of the belt edges are positionable and prevent cooling water on the parts of the work rolls not occupied by the rolling stock arrives and which also have heating devices by means of which the end areas of the work rolls are inevitably heated.

With this device an attempt is made to crown the crown Work rolls during the rolling process through appropriate position control to improve the locking plates by moving the locking plates only depending on the belt edge positions is, however, an optimization of the crown of the work rolls also in the area of the work rolls surrounding the strip edges not possible.

DE-A-36 14 487 discloses in the axial direction of the work rolls sliding devices for applying lubricant, which in the roller area outside the belt edges different from Roll area is tempered within the strip edges, wherein in Depending on the band edges, a sharp boundary line between the different temperature lubricant is set.

With this device edge tensions in fine strips and Foils to be avoided. A targeted influence on the crowning of the work rolls in that the actual crowning corresponds to a target crowning is not possible.

The invention has for its object a method for control the thermal contour and a device for To demonstrate implementation of this procedure, with the the actual contour of the work rolls when rolling strip material, especially in the band edge contact area in the sense of an alignment can be influenced to the target work roll contour.

This task is procedurally based on the features of the claim 1 solved. These measures ensure that the rollers in Contact area with the band edges and especially next to the band contact area be kept warm so that the thermal crowning is broadened in the covered band and the steep, through which Rapid heat drainage caused waste next to the belt edge contact area moved further outward by keeping warm becomes. It is important that the thermal contour in the strip edge contact area of the work rolls in a computer calculated using a calculation model or the thermal Bombing or the temperature profile of the work rolls in the axial direction is measured, so as a shift position for the To determine cover shells on which the thermal crowning on best compensated and the steepest drop to the outside is moved.

Are known methods such. B. cyclical shifting the work rolls or the rolling of strips different Width is also applied, so there is an even greater influence, e.g. B. Uniformization of the thermal crowning in the band edge contact area to reach.

A controlled or regulated coolant supply to the central area the work rolls as well as sealing off the cover shells against that Coolants allow an even better adjustment of the thermal contingent work roll actual contour at its target contour.

In terms of the device, the task is characterized by the features of the claim 5 solved. Because the undesired thermal crowning in the band edge contact area of the work rolls and in the area of the rolls, in who has no contact with the rolling stock is trained at a Application of the measure according to claim 5 a sufficient leveling guaranteed the temperature in these rolling areas. Here the target crowning of the work rolls can be optimally adjusted, if the control device has a computer for calculating the thermal Has crowning or the control device measuring rollers or Temperature sensors assigned to determine the thermal crowning are.

The setting of the work roll contour can be done by combination of heaters arranged on the tape inlet side, e.g. B. induction heaters, with cover shells arranged on the conveyor outlet side optimize.

In order to be able to change the work rolls, it makes sense to Covering shells and, if necessary, the heating device with drives for Spaced to equip them from the work rolls.

Advantageous sliding devices for the cover shells and, if necessary. for the heating device result from claims 10 to 13. The work roll contour can possibly be influenced even better, if the covers are not passive covers, but are formed from heatable or coolable cover shells or have heaters for the covered roll areas.

To influence the coolant in the middle of the work roll the thermal crown is applied to the work rolls from To keep tape edge contact area away, seals and where appropriate, compressed air nozzles proposed. It has proven itself the cover plates with a rectangular shape against cover plates with exchange other shapes to cover the transitions between those covered Areas of the work rolls and the uncovered Areas, and thus better influence the balance of heat to be able to.

Figur 1

die thermisch bedingte Kontur der Arbeitswalzen bei unterschiedlichen Betriebsbedingungen,

Figur 2

die Seitenansicht einer Arbeitswalze mit Abdeckschalen und

Figur 3

eine Vorderansicht auf die einer nicht gezeigten Arbeitswalze zugeordneten Abdeckschalen.

An embodiment of the invention is explained in more detail with reference to a drawing. Show

Figure 1

the thermal contour of the work rolls under different operating conditions,

Figure 2

the side view of a work roll with cover and

Figure 3

a front view of the cover shells assigned to a work roll, not shown.

In Figure 1, the band 1 can be seen, over which the thermal conditional contour of a work roll 2, 2 ', 2' ', 2' '' to four different ones Operating conditions is shown. Operating condition a) represents a work roll 2 'with a conventional contour The area of the band edges 3 is already a sharp drop in the determine thermal crowning, resulting in rolling considerable flatness errors / profile errors arise in the strip edge area.

In the operating condition b), the work roll 2 is in the strip edge contact area shielded by cover plates. The thermal The course of the crowning is compared to the conventional thermal Bombing has already migrated considerably to the outside. The deal with it Setting flatness errors / profile errors are reduced accordingly.

In operating condition c) the work rolls 2 ″ are additionally the cover shells cyclically shifted in the axial direction. It it turns out that here over almost the entire bandwidth same thermal crowning is available.

In operating condition d), the strip edge contact area becomes large covered by the cover shells. Here it comes partially to a stronger thermal crowning than in the central area the work roll. The sharp drop in thermal crowning only starts outside the band edge contact area. The optimal shift position of the cover shells z. B. between operating conditions b) and d) can be calculated using calculation models will.

Figure 2 is the belt 1 and the work roll 2 and a part a support roller 4. Rolling strip on the inlet side and rolling strip on the outlet side cover shells 5, 6 are shown. Furthermore are Cooling devices 7, 8 to recognize the coolant on the Middle areas of the work roll 2 are delivered. The covers 5, 6 associated drives 9, 10 serve to cover the shells 5, 6 to pivot away from the work roll 2, possibly carry out the necessary maintenance work or change the roller to be able to. Conventional wipers 11, 12 prevent coolant can get onto the rolled strip.

Figure 3 shows bearing blocks 13, 14, the guides 15, 16 rotatable to store. The guides 15, 16 point out from the indicated center considered, on the one hand right-hand thread 15 ', 16' and on the other hand Left-hand thread 15 '', 16 '' on. In the area of the thread 15 ', 16' the cover shell 5 'and in the area of the threads 15' ', 16' ' Cover 5 '' over threaded nuts 17 ', 18'; 17 '', 18 '' on the Guides 15, 16 guided. The guides are rotating synchronized via a chain 19. For the rotary drive of the guide threaded rods 15, 16 provides a motor 20. By the different directional pitch of the threads 17 ', 17' 'and 18', 18 '' are the Covering shells 5 ', 5' 'by one motor 20 depending on its Direction of rotation either moved towards or away from each other. The Drives 10, not shown, engage, for example, the bearing blocks 13, 14 on, hold them, and are thus able to cover the 5 ', 5' ' to move the work roll 2 towards or away from it.

List of reference numbers

1

tape

2nd

Work roll

3rd

Band edge

4th

Backup roller

5

Cover

6

Cover

7

Cooler

8th

Cooler

9

drive

10th

drive

11

Wipers

12th

Wipers

13

Bearing block

14

Bearing block

15

guide

16

guide

17th

Threaded nut

18th

Threaded nut

19th

Chain

20th

engine

Claims (21)

1. Method of controlling the thermally-induced profile of working rolls (2) during rolling of roll strip (1) in a given case of different widths, wherein the position of the strip edges (3) of the roll strip (1) on the working rolls is determined, characterised by the ascertaining of a displacement position for thermally insulating covering shells (5, 6), which are able to cover the roll partial lengths in the region of the strip edges (3) and thereby to influence the temperature course in the rolls (2), and by the displacing of the covering shells (5, 6) in such a manner that longitudinal regions of the rolls (2) in the strip edge contact region (3) as well as longitudinal regions of the rolls (2) which do not come into contact with the roll stock (1) during rolling are covered, that for ascertaining the displacement position for the covering shells (5, 6) the thermal dishing of the working rolls (2) in axial direction is calculated on the basis of a computer model or the thermal dishing or the roll temperature in axial direction of the working rolls (2) is measured, and that the covering shells (5, 6) are so displaced that the thermal deviations, which form in the strip edge contact region of the working rolls (2), from the desired profile of the working rolls (2) is counteracted.
2. Method according to claim 1, characterised thereby that the regions of the working rolls (2) disposed axially between the covering shells (5', 5''; 6', 6'') can be acted on by coolant, that the coolant distribution as well as in a given case the coolant temperature distribution is determined in dependence on the thermal dishing computed for the region between the covering shells (5', 5''; 6', 6''), and that for the assimilation to the desired profile of the working rolls (2) the coolant is applied to the working rolls to act against the thermal dishing.
3. Method according to claim 2, characterised thereby that the regions screened by the covering shells can be sealed off against the coolant relative to the region of the working rolls (2) acted on by the coolant.
4. Method according to one of claims 1 to 3, characterised thereby that the covering shells (5, 6) are settable in their temperature and optionally in their axial temperature distribution.
5. Device for controlling the thermally-induced profile of working rolls (2) during rolling of roll strip (1) in a given case of different widths, with a device for determining the position of the strip edges (3), for carrying out the method according to claims 1 to 4, wherein at least one thermal covering shell pair (5, 5', 6, 6') is able to thermally screen off axial length regions of the working rolls (2) over at least a part circumference, characterised by at least one displacing device for moving the covering shells (5, 6) in axial direction of the working rolls and a control device for positioning the covering shells (5, 6) at least in dependence on the roll strip edges (3), wherein the control device comprises a computer for computing the thermal dishing, or measuring rolls or temperature sensors for ascertaining the thermal dishing are associated with the control device.
6. Device according to claim 1, characterised thereby that drives (9, 10) are provided, by means of which the covering shells (5, 6) on the working rolls (2) are movable to or from these.
7. Device according to claim 5 or 6, characterised thereby that covering shell pairs (5, 5', 6, 6') are provided not only on the strip entry side, but also on the strip exit side of the working rolls (2).
8. Device according to at least one of claims 5 to 7, characterised thereby that covering roll pairs (6, 6') are provided at the strip exit side of the working rolls (2), whilst heating devices reaching over the strip edge contact region (3) are provided at the strip entry side.
9. Device according to claim 8, characterised by at least one displacing device for moving the heating devices in axial direction of the working rolls and a control device, preferably as part of the control device for positioning the covering shells, for positioning the heating devices at least in dependence on the roll strip edges (3).
10. Device according to at least one of claims 5 to 9, characterised thereby that the displacing devices for the covering shells (5, 5', 6, 6') and in a given case the heating devices consist of two guides (15, 16), which are arranged parallel to the working rolls (2) and between which the covering shells (5, 6) provided with threaded nuts (17, 18) are guided, in the form of threaded rods, that the threaded rods (15. 16) have threads of mutually opposite sense at the two ends, that the two threaded spindles (15, 16) have a synchronously acting drive device (chain 19) and that a motor (20) is provided for the drive of the threaded spindles (15, 16).
11. Device according to at least one of claims 5 to 9, characterised thereby that the covering shells (5, 6) and in a given case the heating devices are guided on two parallelly arranged guide posts and are drivable by means of a centrally arranged threaded rod with oppositely directed inclinations of its thread.
12. Device according to at least one of claims 5 to 9, characterised thereby that separate guides and/or drives for the covering shells (5, 6) and in a given case the heating devices are provided for each of the sides, considered from the roll strip centre, of the working rolls (2).
13. Device according to at least one of claims 5 to 9, characterised thereby that the displacing device for the covering shells (5, 6) and in a given case the heating device consist of at least one respective hydraulic cylinder per covering shell.
14. Device according to at least one of claims 5 to 13, characterised thereby that cooling devices for cooling the covering shells (5, 6) are provided.
15. Device according to at least one of claims 5 to 14, characterised thereby that, in the region between the covering shells (5, 6), coolant devices (7, 8) settable in their effective width and intensity are directed at the working rolls (2).
16. Device according to claim 15, characterised thereby that sealing devices are associated with the covering shells (5, 6).
17. Device according to at least one of claims 5 to 16, characterised thereby that the covering shells (5, 6) comprise an air pressure connection and air outlet nozzles in order to blow dry the region covered by them.
18. Device according to at least one of claims 5 to 17, characterised thereby that the covering shells (5, 6) have a rectangular shape considered in rolling direction or against the rolling direction.
19. Device according to at least one of claims 5 to 17, characterised thereby that the covering shells (5, 6) have a trapezium shape or a triangular shape, or are constructed to be round, considered in rolling direction or against the rolling direction.
20. Device according to claim 8, characterised thereby that the heating devices are provided to be stationary in axial direction and activatable zone by zone.
21. Device according to claim 20, characterised by at least one control device, by means of which the heating devices are activatable at least in dependence on the roll strip edge positions.

Images