Stabilization of the rolled product during opening and/or closing of a roll stand

Abstract

A rolling mill stand has two working rolls forming a roll gap in which a rolled product transported in a conveying direction can be formed. The positioning of at least one working roll is variable in a plane perpendicular to the conveying direction. The rolling mill is used in a method which comprises: conveying the rolled product through the roll gap in the conveying direction and at the same time opening or closing the rolling mill stand by correspondingly increasing or decreasing the roll gap; during opening or closing of the roll stand, detecting a position of the rolled product in front of and/or behind the roll gap in the direction transverse to the conveying direction; and changing the positioning of the corresponding working roll depending on the detected position, so that the rolled product is stabilized at a target position during opening or closing of the roll stand.

Claims

1.-14. (canceled)

15. A method for opening and/or closing a rolling mill stand (1) with two working rolls (10) forming a roll gap (S) in which a rolled product (B) transported in a conveying direction (R) can be formed, wherein a positioning of at least one of the two working rolls (10) is variable in a plane perpendicular to the conveying direction (R), the method comprising: conveying the rolled product (B) through the roll gap (S) in the conveying direction (R) and at the same time opening or closing the rolling mill stand (1) by correspondingly increasing or decreasing the roll gap (S); during opening or closing of the roll stand (1), detecting a position of the rolled product (B) in front of and/or behind the roll gap (S) in a direction transverse to the conveying direction (R); and changing the positioning of the corresponding working roll (10) depending on the detected position, so that the rolled product (B) is stabilized at a target position during opening or closing of the roll stand (1).

16. The method according to claim 15, wherein the position of the rolled product (B) is detected without contact.

17. The method according to claim 16, wherein the position of the rolled product (B) is detected optically by one or more cameras (21a), by radar, or by laser scanning.

18. The method according to claim 15, wherein the rolled product (B) is a metal strip and the position of the rolled product (B) follows indirectly from a strip tension distribution over a width of the metal strip in front of and/or behind the roll gap (S).

19. The method according to claim 15, wherein the positioning of the working roll (10) is changed hydraulically.

20. A method, comprising: providing a plurality of rolling mill stands (1) in a rolling train, each having two working rolls (10) forming an associated roll gap (S) in which a rolled product (B) transported in a conveying direction (R) can be formed, wherein a positioning of at least one working roll (10) per rolling mill stand (1) is variable in a plane perpendicular to the conveying direction (R), and the method further comprises: conveying the rolled product (B) through the roll gap (S) of each of the rolling mill stands (1) in the conveying direction (R) and at the same time opening or closing one or more of the rolling mill stands (1) by correspondingly increasing or decreasing the associated roll gap (S); during opening or closing of the corresponding roll stand (1), detecting a position of the rolled product (B) in front of and/or behind the associated roll gap (S) in the direction transverse to the conveying direction (R); and changing the positioning of the corresponding working roll (10) depending on the detected position, so that the rolled product (B) is stabilised at a target position during opening or closing of the corresponding roll stand (1).

21. A rolling mill stand (1) for rolling a rolled product (B), comprising: two working rolls (10), which form a roll gap (S), in which the rolled product (B), which can be transported in a conveying direction (R), can be formed; a positioning device (12), which is configured to vary the positioning of at least one of the two working rolls (10) in a plane perpendicular to the conveying direction (R) and to open or close the rolling mill stand (1) accordingly by increasing or decreasing the roll gap (S); and a location control system (20), which is configured to detect a position of the rolled product (B) in front of and/or behind the roll gap (S) in the direction transverse to the conveying direction (R) during the opening or closing of the rolling mill stand (1) and to change the positioning of the corresponding working roll (10) depending on the detected position in such a manner that the rolled product (B) is stabilized at a target position during the opening or closing of the rolling mill stand (1).

22. The rolling mill stand (1) according to claim 21, wherein the location control system (20) comprises at least one location detector (21), which is configured to detect the position of the rolled product (B) in front of and/or behind the roll gap (S) without contact.

23. The rolling mill stand (1) according to claim 22, wherein the location detector (21) comprises one or more cameras (21a).

24. The rolling mill stand (1) according to claim 22, wherein the location control system (20) comprises a location evaluation unit (22) in communication with the location detector (21) and a location controller (23) in communication with the location evaluation unit (22), wherein the location evaluation unit (22) is configured to determine a current position (xACT) of the rolled product (B) in the direction transverse to the conveying direction from detection values of the location detector (21) and to transmit the current position (xACT) to the location controller (23), wherein the location controller (23) is configured to calculate a swivel value for the positioning device (12) from the current position (xACT) of the rolled product (B) and to control the positioning device (12) directly or via a position controller (13) of the positioning device (12) in such a manner that the position of the rolled product (B) is stabilized at the target position during the opening or closing of the rolling mill stand.

25. The rolling mill stand (1) according to claim 21, wherein the positioning device (12) comprises exactly two hydraulic cylinders (12a).

26. The rolling mill stand (1) according to claim 21, wherein the rolling mill stand (1) has two back-up rolls (11), which are in contact with the working rolls (10).

27. A device (1) for rolling a rolled product (B), which comprises one or more rolling mill stands (1) according to claim 21.

28. The device (1) according to claim 27, wherein a plurality of rolling mill stands (1) is provided, which rolling mill stands form a tandem rolling train (100).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0032] Preferred further exemplary embodiments of the invention are explained in more detail by the following description of the figures.

[0033] FIG. 1 schematically, a rolling mill stand with working and back-up rolls along with a positioning device for varying the roll gap, wherein the rolling mill stand is shown in an open state;

[0034] FIG. 2 schematically, a rolling mill stand with working and back-up rolls along with a positioning device for varying the roll gap, wherein the rolling mill stand is shown in a closed state;

[0035] FIG. 3 schematically, a rolling train with a plurality of rolling mill stands and a location control system;

[0036] FIG. 4 schematically, a tandem rolling train with a plurality of rolling mill stands and a plurality of location control systems; and

[0037] FIG. 5 schematically, a rolling mill stand with working and back-up rolls along with a location control system in accordance with a further exemplary embodiment.

DETAILED DESCRIPTION

[0038] Preferred exemplary embodiments are described below with reference to the figures. In this context, identical, similar or similarly acting elements are provided with identical reference signs in the figures, and a repeated description of such elements is partially omitted in order to avoid redundancy.

[0039] FIG. 1 schematically shows a rolling mill stand 1 for rolling a rolled product B, in particular in strip form, which can be transported in a conveying direction R (perpendicular to the plane of the figure).

[0040] In accordance with the exemplary embodiment, the rolling mill stand 1 is designed as a four-high rolling mill stand, preferably for rolling a hot strip, that is, for use in a hot flat rolling mill. However, the rolling mill stand 1 can also have a different structure and/or can be designed for a different application, for example as a cold rolling mill stand for metal strips or a structural rolling mill stand.

[0041] The rolling mill stand 1 of the present exemplary embodiment has two parallel, opposing working rolls 10, which form a roll gap S, and two associated back-up rolls 11, which are in contact with the working rolls 10 accordingly in order to support the working rolls 10 and prevent or at least limit deflection of the working rolls 10 under load.

[0042] The rolling mill stand 1 further comprises a positioning device 12, which is configured to move at least one of the two working rolls 10, preferably the upper working roll 10, in the vertical direction, that is, in the direction of gravity, in order to change the roll gap S. For this purpose, the positioning device 12 can move the structural unit consisting of the working roll 10 and the associated back-up roll 11, as can be seen from a comparison of FIGS. 1 and 2.

[0043] The positioning device 12 is further configured to adjust, in addition to the vertical position of the working roll 10 concerned, its inclination in the plane perpendicular to the conveying direction R. This can be realized in that the positioning device 12 has two points of engagement on the working roll 10 or the structural unit consisting of working roll 10 and back-up roll 11. In the present exemplary embodiment, the two setting positions are designated as setting position of the operating side s.sub.OS and setting position of the drive side s.sub.OS, motivated by the position of the drive (not shown in the figures) for the rolls 10, 11 on the drive side DS and the position of access for operating personnel on the operating side OS, such as for maintenance of the rolling mill stand 1, replacement of rolls 10, 11 and the like.

[0044] In the present exemplary embodiment, the positioning device 12 comprises two hydraulic cylinders 12a, which act as actuators of the positioning device 12. However, the positioning of the working roll 10 can also be varied in other manners, for example by means of one or more linear and/or electric motors.

[0045] The rolling mill stand 1 of FIG. 1 is shown in an open or pulled-up state, in which the roll gap S is open and thus no thickness reduction of the rolled stock B is taking place. An open roll gap S may be required at the start of the rolling process, for threading the rolled product B into the one or more rolling mill stands 1, for maintenance work, a flying roll change, that is, a roll change during ongoing production, and in other process situations. FIG. 2 shows the rolling mill stand 1 in a lowered-down or closed state, in which the working and back-up rolls 10, 11 are in their operating position, in which a rolling force F.sub.W acts on the rolled product B and it is plastically deformed, in particular reduced in thickness.

[0046] When opening and/or closing the roll gap S, the rolled product B may not remain stable in the desired, usually central location in the roll gap S, but may run off to the side, that is, to the left/right in the perspective of FIGS. 1 and 2. This may be caused by an inclined position of the positionable working roll 10, as shown in exaggerated form in FIG. 1. The setting position s.sub.OS of the operating side and the setting position s.sub.OS of the drive side do not match.

[0047] In order to stabilize the process of opening and closing the rolling mill stand 1, a location control system 20 is provided, which is shown schematically in FIGS. 3, 4 and 5.

[0048] The location control system 20 comprises one or more location detectors 21, which are configured to detect the position of the rolled product B in front of and/or behind (as seen in the conveying direction R) the roll gap S of a rolling mill stand 1, preferably without contact. For this purpose, the location detector 21 preferably comprises one or more cameras 21a, which are directed, for example, at the strip edges of the rolled product B, if strip-shaped. Such a location detector 21 is shown in FIG. 3, which shows a schematic top view of a rolling train with a plurality of rolling mill stands 1. The location detector 21 detects the location or position, as the case may be, of the rolled product B in the lateral direction, that is, in the axial direction of the working rolls 10.

[0049] As an alternative to using one or more cameras 21a, the location detector 21 can detect the position of the rolled product B by using a detector based on a different principle. For example, the position of the rolled product B, in particular any strip edges, can be detected by radar, laser scanning or another optical method. Alternatively, instead of the explicit location of the rolled product B, a parameter that indirectly represents the location of the rolled product B, such as a strip tension distribution, can be used. The strip tension distribution can be measured across the width of the rolled product B, that is, in the axial direction of the working rolls 10, in front of and/or behind the rolling mill stand 1 and can be used for control.

[0050] The location detector 21 is in communication with a location evaluation unit 22, which is configured to determine the current position x.sub.ACT of the rolled product B in the lateral direction from the detection values of the location detector 21 and to transmit such information to a location controller 23.

[0051] From the current position x.sub.ACT of the rolled product B, the location controller 23 calculates a swivel value (differential positioning value) for the positioning device 12 of the working rolls 10. By swiveling the working roll 10 by the positioning device 12, the rolled product B can be moved to the side. The location controller 23 now controls the relevant positioning device 12 directly or via a position controller 13 of the positioning device 12 (see FIGS. 4 and 5) in such a manner that the rolled product location is stabilized during the closing of the roll gap S. In other words, the roll gap S is closed in such a manner that the location or position, as the case may be, of the rolled product B remains as close as possible to a target position. For this purpose, the location controller 23 is in wired or wireless communication with the positioning device 12.

[0052] The location detector 21, the location evaluation unit 22 and the location controller 23 may be separate structural units communicating with one another or may be realized integrally. Furthermore, the location control system 20 can be implemented centrally or decentrally, part of Internet-based and/or cloud-based applications or in other manners, as well as accessing databases if necessary. In general, communication between the electronic components, such as between the location control system 20 and the positioning device(s) 12, between the location detector 21 and the location evaluation unit 22 and between the location evaluation unit 22 and the location controller 23, can be wireless or wired.

[0053] FIG. 4 shows a tandem rolling train 100 with a plurality of rolling mill stands 1, wherein a plurality of location control systems 20 are installed in association with different rolling mill stands 1.

[0054] FIG. 5 schematically shows a rolling mill stand 1 with a location control system 20 in accordance with another exemplary embodiment. Here, the position controller 13 of the positioning device 12 is divided into a position controller 13a of the operating side OS and a position controller 13b of the drive side DS, which are configured for position control of the corresponding side, preferably of the corresponding hydraulic cylinder 12a.

[0055] FIG. 5 also shows the influence of the location control of the rolled product B on the position control of the positioning device 12, wherein F.sub.COS designates the positioning force on the operating side OS and F.sub.CDS denotes the positioning force on the drive side DS. s.sub.REF designates a target value of the mean setting position, s.sub.REF designates a target value of the differential setting position (swivel value), x.sub.REF designates a target value of the rolled product location, and x.sub.OP designates an additional target value for the rolled product location, for example defined by a higher-level system control or an operator. Thereby, s=(s.sub.DSs.sub.OS)/2 applies to the mean setting position and s=s.sub.DSs.sub.OS to the differential setting position.

[0056] The control of the rolled product location set forth herein enables stabilization of the process of opening and closing a rolling mill stand 1, while a rolled product B is being transported, by keeping the location of the rolled product B close to a target position in the lateral direction, that is, transverse to the conveying direction R. In this manner, the quality of production can be improved and any rejects can be minimized. Furthermore, by installing the location control system 20 on a plurality of rolling mill stands 1 of a rolling train, it is possible to open and close one or more rolling mill stands 1 simultaneously.

LIST OF REFERENCE SIGNS

[0057] 1 Rolling mill stand [0058] 10 Working roll(s) [0059] 11 Back-up roll [0060] 12 Positioning device [0061] 12a Hydraulic cylinder [0062] 13 Position controller of the positioning device [0063] 13a Position controller of the operating side [0064] 13b Position controller of the drive side [0065] 20 Location control system [0066] 21 Location detector [0067] 22 Location evaluation unit [0068] 23 Location controller [0069] 100 Tandem rolling train [0070] R Conveying direction [0071] B Rolled product [0072] S Roll gap [0073] OS Operating side [0074] DS Drive side [0075] F.sub.W Rolling force [0076] s.sub.OS Setting position of the operating side [0077] s.sub.DS Setting position of the drive side [0078] x.sub.ACT Current position of the rolled product [0079] F.sub.COS Positioning force on the operating side [0080] F.sub.CDS Positioning force on the drive side [0081] s.sub.REF Target value of the mean setting position [0082] s.sub.REF Target value of the differential setting position [0083] x.sub.REF Target value of the rolled product location [0084] x.sub.OP Additional target value [0085] s Middle setting position [0086] s Differential setting position