EP1025918B1 - Method and installation for forming metal strip - Google Patents

Abstract

In a hot strip rolling process, the strip (5) is subjected to thickness reduction between the end of a cooling line (2) and a coiler (4). An Independent claim is also included for a hot strip mill for carrying out the above process, including thickness reducing rolls (3') between the cooling line end and the coiler (4). Preferred Features: The thickness reducing rolls (3') comprise strip driving rolls and/or an additional roll stand ahead of the driving rolls.

Description

The invention relates to a method and a system for forming metal strip in a hot strip rolling mill, consisting of a finishing train, a Cooling section, a driver and a coiler.

It is known to metal after the casting process in a hot strip rolling mill up to to roll certain thicknesses, then after a reeling a Cold strip rolling mill for rolling to the final dimension. This will be on the cold strip rolling mill supplied metal strip ever higher demands in terms of its mechanical and geometric properties, in particular his flatness.

At the same time there is a tendency to the desired end properties of the metal strip, resulting from the successive processes of warm and Cold rolling mill, already set in the hot rolling process or a hot strip the optimal conditions for the subsequent Brings cold rolling. Also, the boundary conditions during hot rolling more difficult. There are increasingly thinner and wider products for customization desired to the final product, resulting in a greater reduction in thickness and a Use of larger rolling forces in the end stands of the hot strip rolling mill requires. These effects adversely affect the flatness of the hot strip and thus also on the quality of the tape in the cold state.

The strip partly leaves the finishing train with uneven planarity or voltage distribution over the bandwidth. Furthermore, the flatness state changes or the structure shape and distribution within the cooling section. The Uneven properties of the hot strip across the width then lead directly or indirectly to different flatness ratios of the cold strip.

From US-A-4 074 555 a method and a hot strip mill for Ver Improvement of the quality characteristics of hot strip known. This is the Hot hot strip after rolling or before winding stretch-bending. In the hot strip mill with at least one roll stand, an outlet roll, possibly a retraction driver and a take-up reel is provided that the exit roller conveyor a stretch bending - straightening station with in the straightening station continuous hot strip is associated with dipping bending rolls.

US Pat. No. 5,771,731 describes a production plant for the production of hot-rolled flat products, consisting of a multi-stand rolling mill, an outlet roller table with facilities for cooling the hot strip and downstream Winding machines for winding the tape, wherein in the rolling direction Seen behind the winding machines a compact forming stage in the form of a a single or multi-stand rolling mill for rolling thin strips arranged is.

The invention is based on the subtask, a method and a system for Adjustment of uniform flatness and tension conditions in the hot strip in order to obtain a flat band in the cold state. Another Partial task is the structure or the mechanical properties as well as the Surface structure of the tape targeted to influence and improve.

These objects are achieved by the features of method claims 1 and solved by the features of claim 8. Advantageous embodiments of the invention are disclosed in the subclaims.

The essence of the invention is the provision of a method and a plant, wherein the strip material after exiting the cooling zone and before the reeling a Thickness reduction is subjected.

According to the invention, despite completion of the actual rolling process the passage through the finishing train thus a further rolling process instead.

A small reduction in thickness is sufficient to those in the finishing train and / or in the cooling section - especially at low reel temperatures - incurred To eliminate unevenness or uneven stress distribution in the belt and thus improving the quality of the tape even when cold.

To further reduce the final thickness and change the structure or mechanical properties are also larger thickness decreases conceivable.

The forming in the finishing train takes place in the austenite or ferrite area, in the second reduction in thickness behind the cooling section, however, is usually exclusive rolled ferritically.

The proposed thickness reduction is achieved by, in a first embodiment the gap between the two rolls of a modified (reinforced) Driver itself is set so that a rolling process, i. a thickness reduction, takes place. The driver rollers not only cause the tape to drive, but in addition a thickness decrease.

The diameters of the upper and lower rollers or rollers can be equal or be different. The surfaces of the driver rollers or rolls can be smooth or for the purpose of setting a desired tape roughness be roughened.

Preferably, the driver rollers or rollers are influencing the nip Provided actuators. Influencing factors are for example the Schlifform the rollers or their contact pressure. Furthermore, CVC cuts are conceivable or a stripper bend. As a predictor, the cooling of the Working rolls in the scaffolding, for example, a multi-zone cooling. To improve the surface finish of the rollers are online grinding or polishing equipment conceivable.

It is recommended to increase the thickness reduction or adjustment a desired surface texture on the driver scaffold means for To arrange roll gap lubrication. Preferably, this is an actuator Zone-wise activatable lubrication proposed over the bandwidth.

It is expected that after such a device for roll gap lubrication still unburned residues of the lubricant, preferably oil, on the Band are present. Therefore, it is recommended, after such a device to provide a device for removing the excess lubricant, for example, by arranging a water spray bar.

If the thickness reduction is achieved by means of a Nachwalzgerüstes, should preferably be arranged after the rolling zone, a second belt cooling section. This works either with a low or high pressure system. Such second cooling section is recommended, because they are both for removing the nip for removing the tertiary scale, for further removal of lubricating oil and also for further influencing the band properties.

For better control, a thickness gauge after the Nachwalzgerüst, in Tape running direction seen, provided.

Advantageously, it is proposed that the band between the end of Cooling section and the coiler not only by a driver, but in addition through a stretcher straightener zone. In this stretcher zone the belt becomes directed by pulling it with strong train over straightening and bending rolls, the force a diversion.

As a particularly preferred embodiment of the invention claimed Integration of a scaffold to reduce the thickness at the end of a hot rolling process between cooling section and coiler plant is to set a plan Bandes suggested that the employment or actuators of the rolls of the Nachwalzgerüstes or the driver rollers by means of a control loop in dependence be governed by the band properties. The band properties are for example, the temperature distribution, the strip contour or the strip tension distribution. These are added cyclically at the end of the process and act within the control loop on manipulated variables to change the Roll gap size.

In an analogous manner, the setting of the drafting roller to each other and be regulated to the band depending on the band properties.

Thickness reduction over the tape length can vary. At the tape head, for example, only a small reduction in the thickness is intended to mitigate the onslaught. Subsequently, the distance between the driver rollers or the rollers of the Nachwalzgerüstes is reduced to target thickness.
The proposed method and apparatus can generally find use in the production of metals. In particular, the machining of steel and aluminum is provided.

Further details and advantages of the invention will become apparent from the following Description.

The single FIGURE shows a plant for forming metal strip, wherein the Plant a finishing train 1 with subsequent cooling section 2, a driver 3 and a coiler 4 includes. The metal strip 5 is after leaving the finishing train 1 passed through a cooling section 2.

The thickness reduction is carried out by means of a driver reduction stand 3 '. Before the driver reduction frame 3 ', as seen in the tape running direction, there is a Lubrication device 6a, 6b, after the Treiberreduziergerüst 3 'is a device arranged to remove the lubricant 7a, 7b. Furthermore, the arrangement a cooling element 10 after exit of the tape from the Treiberreduziergerüst 3 'advantageous.

For the introduction of the tape in the coiler 4 a deflection roller 8 is provided, which may be formed as planarity measuring roll.

For thickness control, the arrangement of a thickness gauge 11 connects. Between the individual parts of the system guide rollers 12 are provided for the band 5.

Claims (14)

1. Method of reshaping metal strip (5) in a hot strip rolling plant, wherein the metal strip (5) after running through a finishing train (1) and a cooling path (2) is fed by way of a driver (3), which consists of an upper and a lower driver roller, to a coiling installation (4), wherein the metal strip (5) in the region between ends of the cooling path (2) and the coiling installation (4) is subjected to a reduction in thickness, characterised in that the rollers or rolls (3') of the driver (3) are used for the thickness reduction.
2. Method according to claim 1, characterised in that the metal strip (5) additionally runs through a straightening zone between the end of the cooling path (2) and the coiling installation (4).
3. Method according to claim 1 or 2, characterised in that the adjustment of the thickness-reducing driver rollers / driver rolls (3') or the setting elements thereof is regulated by means of a regulating circuit in dependence on the strip characteristics.
4. Method according to claim 2, characterised in that the setting of the straightening rollers with respect to one another and with respect to the metal strip (5) is regulated by means of a regulating circuit in dependence on the strip characteristics.
5. Method according to claim 4, characterised in that the temperature distribution, strip contour or strip tensile stresses enters or enter as strip characteristics.
6. Method according to one of claims 1, 13 to 16, characterised in that the strip temperature distribution over the width before reshaping in the straightening zone is used as additional setting element for setting of the strip characteristics in the cooling path (2).
7. Method according to one of claims 1 to 6, characterised in that the thickness reduction is different over the strip length.
8. Plant for reshaping metal strip (5), consisting of a finishing train (1) with a downstream cooling path (2), driver (3) and coiling installation (4), wherein in the region between the end of the cooling path (2) and the coiling installation (4) at least two rollers or rolls (3') are so arranged one above the other that they form a rolling gap which is smaller than the strip thickness in front of the rollers or rolls (3') as seen in strip running direction, characterised in that these rollers or rolls are the driver rollers (3'), which not only serve as driver (3), but also carry out a thickness reduction.
9. Plant according to claim 8, characterised in that the diameters of the driver rollers / driver rolls (3') are the same or different.
10. Plant according to claim 8 or 9, characterised in that the surfaces of the driver rollers / driver rolls (3') are smooth or, for the purpose of setting a desired strip roughness, are roughened.
11. Plant according to one of claims 8 to 10, characterised in that a device for rolling gap lubrication (6a, 6b) is provided at the driver (3), wherein this device is preferably zonally activatable over the strip width.
12. Plant according to claim 11, characterised in that a device (7a, 7b) for removing the lubricant is provided after the driver (3) as seen in strip running direction.
13. Plant according to one of claims 4 to 10, characterised in that a strip cooling path (10) is arranged after the driver (3) as seen in strip running direction.
14. Plant according to one of claims 8 to 13, characterised in that a thickness measuring instrument (11) is provided after the driver (3) as seen in strip running direction.

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