Reduction of Surface Defects During Finish Rolling of Hot Strip

Abstract

The invention relates to a finishing train for finish rolling hot strip. It is the object of the invention to modify an existing finishing train in such a way that the surface quality of the hot strip produced is improved without, however, significantly increasing the use of energy during production. This is intended to enable the thin hot strip produced to be used even for applications with high demands on surface quality. This object is achieved by a cleaning nozzle which cleans the upper side of the exit table, thus ensuring that scale and/or rolling dust are/is removed from the exit table.

Claims

1-15. (canceled)

16. A finishing train for finish rolling hot strip, comprising: a plurality of roll stands, the roll stands each having a lower and an upper working roll and the working rolls each form a roll gap, the hot strip configured to pass through the roll gaps in a transport direction during finish rolling; a plurality of cooling nozzles arranged below a pass line, the cooling nozzles configured to spray a liquid cooling medium onto a lateral surface during the finish rolling to cool at least one exit-side region of the lateral surface of the lower working roll of the last roll stand in the transport direction; at least one stripper arranged vertically between the cooling nozzles and the hot strip, the at least one stripper configured to keep the cooling medium away from the hot strip, the at least one stripper being secured on an exit table; and at least one cleaning nozzle configured to clean an upper side of the exit table to remove at least one of scale and rolling dust.

17. The finishing train as claimed in claim 16, wherein the hot strip comprises steel.

18. The finishing train as claimed in claim 16, wherein: at least one of the at least one cleaning nozzles is arranged on a drive side of the roll stand; and at least one other of the at least one cleaning nozzles is arranged on an operator side of the roll stand.

19. The finishing train as claimed in claim 18, wherein the at least one of the at least one cleaning nozzles on the drive side has an offset in the transport direction relative to the at least one other of the at least one cleaning nozzles on the operator side.

20. The finishing train as claimed in claim 16, wherein: in the transport direction, at least one lifting roller, which is arranged in a width direction of the hot strip, is arranged between the working rolls of the last roll stand and a cooling section for cooling the finish-rolled hot strip; and the lifting roller lifts the hot strip in a vertical direction above the pass line during the finish rolling, so that an underside of the hot strip does not touch the exit table.

21. The finishing train as claimed in claim 16, wherein one of a pipe and a hose line fluidically connects a cooling nozzle to at least one of the at least one cleaning nozzles.

22. A finishing train for finish rolling hot strip, comprising: a plurality of roll stands, the roll stands each having a lower and an upper working roll and the working rolls each form a roll gap. the hot strip configured to pass through the roll gaps in a transport direction during finish rolling; a plurality of cooling nozzles arranged below a pass line, the cooling nozzles configured to spray a liquid cooling medium onto a lateral surface during the finish rolling to cool at least one exit-side region of the lateral surface of the lower working roll of the last roll stand in the transport direction; at least one stripper arranged vertically between the cooling nozzles and the hot strip, the at least one stripper configured to keep the cooling medium away from the hot strip, the at least one stripper being secured on an exit table; and at least one lifting roller in the transport direction which is arranged in a width direction of the hot strip, is arranged between the working rolls of the last roll stand and a cooling section for cooling the finish-rolled hot strip, the lifting roller configured to lift the hot strip in a vertical direction above the pass line during the finish rolling, so that an underside of the hot strip does not touch the exit table.

23. The finishing train as claimed in claim 22, wherein the hot strip comprises steel.

24. The finishing train as claimed in claim 22, wherein a first surface inspection unit configured to inspect an upper side of the hot strip is arranged between the lifting roller and a first cooling unit of the cooling section.

25. The finishing train as claimed in claim 24, wherein the first surface inspection unit comprises an optical surface inspection unit.

26. The finishing train as claimed in claim 22, further comprising a pyrometer and a first blow-cleaning device for blow-cleaning the upper side of the hot strip are arranged between the last roll stand and the first surface inspection unit.

27. The finishing train as claimed in claim 24, further comprising a second surface inspection unit for inspecting the underside of the hot strip is arranged between a last cooling unit of the cooling section and shears.

28. The finishing train as claimed in claim 27, wherein the second surface inspection unit comprises an optical surface inspection unit.

29. The finishing train as claimed in claim 26, further comprising a second pyrometer and a second blow-cleaning device for blow-cleaning the upper side of the hot strip are arranged between the second surface inspection unit and shears.

30. The finishing train as claimed in claim 29, further comprising a driving-roller unit having at least one drivable driving roller which can be placed against the hot strip is arranged between the second blow-cleaning device and the shears.

31. finishing train as claimed in claim 30, further comprising: a controller connected to a drive for lifting the lifting roller and the second surface inspection unit for inspecting the underside of the hot strip; wherein the controller lifts the lifting roller further as soon as the second surface inspection unit detects surface defects on the underside of the hot strip.

32. A combined casting/rolling plant, comprising: a continuous casting plant for the continuous casting of a strand; and the finishing train as claimed in claim 16.

33. The combined casting/rolling plant as claimed in claim 32, further comprising: a roughing train for roughing the strand to form an intermediate strip; and a furnace configured to heat the intermediate strip to a rolling temperature.

34. The combined casting/rolling plant as claimed in claim 33, wherein the furnace is an induction furnace.

35. The combined casting/rolling plant as claimed in claim 32, further comprising a tunnel furnace arranged upstream of the roughing train, the tunnel furnace configured to at least one of thoroughly heat and maintain a temperature of the strand.

36. The combined casting/rolling plant as claimed in claim 33, wherein the roughing train comprises three roll stands and the finishing train comprises five roll stands.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0034] The above-described properties, features and advantages of this invention and the manner in which these are achieved will become more clearly and distinctly comprehensible in conjunction with the following description of an exemplary embodiment, which is explained in greater detail in conjunction with the drawings. In the drawings:

[0035] FIG. 1 shows a schematic illustration of a combined casting/rolling plant embodied according to the invention.

[0036] FIG. 2 shows a detail illustration of the last roll stand of the finishing train with a lifting roller and a plurality of cleaning nozzles for spray-cleaning the upper side of the exit table.

[0037] FIG. 3 shows a detail illustration of the last roll stand of the finishing train with a plurality of cleaning nozzles for spray-cleaning the upper side of the exit table,

[0038] FIG. 4 shows a plan view of the roll stand and the exit table of the last roll stand of the finishing train with the cleaning nozzles from FIG. 3,

[0039] FIG. 5a shows a front view with a cleaning nozzle for spray-cleaning the upper side of the exit table,

[0040] FIG. 5b shows a side view of the cleaning nozzles from FIG. 5a,

[0041] FIG. 6 shows a detail illustration of the last roll stand of the finishing train with a lifting roller for lifting the hot strip so that the underside of the hot strip does not touch the exit table, and

[0042] FIG. 7 shows a photograph of a surface defect on the underside of a hot strip which has been scratched by scale after finish rolling.

DETAILED DESCRIPTION

[0043] FIG. 1 shows a diagram of a combined casting/rolling plant for producing thin hot-rolled steel strip. Liquid steel is cast in the mold 2 of the continuous casting machine 1 to form a strand with a slab or thin slab cross section and is continuously drawn out of the mold 2. The strand is supported, guided and further cooled in the arcuate strand guide 3 and is then bent back into the horizontal. The solidified strand is then roughed in the roughing train 4 to form a roughed strip. After this, the roughed strip is heated to rolling temperature by the furnace 5, preferably an induction furnace having a plurality of induction modules, and descaled by a descaler 6 before entering the finishing train 7. In the finishing train 7, the roughed strip is finish-rolled to form the hot strip (also called finished strip). The finished strip typically has a thickness of between 0.6 and 3.6 mm. After finish rolling, the hot strip 11 is cooled to coiling temperature in the cooling section 8 by a plurality of cooling units. Shortly before coiling, the cooled hot strip 11 is divided transversely into coil lengths by shears 9 and coiled by a plurality of coiling or winding devices 10 or, alternatively, by a rotatable carousel coiler. Particularly in the production of thin or very thin hot strip, it is advantageous to operate the combined casting/rolling plant continuously.

[0044] According to the invention, after the last roll stand 7e of the finishing train 7 there is a lifting roller 18 for lifting the finished strip above the pass line P and/or at least one cleaning nozzle 17 for cleaning the upper side of the exit table 15 with a liquid medium (e.g. cooling water) or scavenging with a gaseous medium (for example air), thus ensuring that scale and/or rolling dust are/is removed from the exit table 15.

[0045] In the former case, the finish-rolled hot strip 11 is lifted above the pass line P by the lifting roller 18, which is arranged in the width direction of the hot strip 11, thus ensuring that contact between the underside of the hot strip 11 and the exit table 15 is avoided in all cases.

[0046] In the second case, at least the exit table 15, and, according to a variant for very thin strips also the feed table 24, of the at least last roll stand 7e of the finishing train 7 are freed from scale and/or rolling dust by at least one cleaning nozzle 17, thus ensuring that no impurities can accumulate on the upper side of the exit table 15 which could scratch the underside of the hot strip 11.

[0047] According to a preferred embodiment, both said cases are combined, i.e. a lifting roller 18 and at least one cleaning nozzle 17 are present after the last roll stand 7e. This case is illustrated in FIG. 2.

[0048] FIGS. 3 and 4 show the case in which three cleaning nozzles 17, one on the drive side A and two on the operator side B of the roll stand 7e, are arranged on the exit table 15. The cleaning nozzles 17 each have an offset x in the transport direction T. In addition to the cleaning nozzles 17 on the exit table 15, a further three cleaning nozzles 17 are arranged on the feed table 24. These cleaning nozzles 17 too serve to clean the upper side of the feed table by spray-cleaning or scavenging scale, rolling dust, etc.

[0049] FIGS. 5a and 5b show a front and a side view of a cleaning nozzle 17 which is arranged on the upper side of the exit table 15. The cleaning nozzle 17 is a flat jet nozzle, wherein the spray jet is wider than it is high. Specifically, the outlet opening of the cleaning nozzle 17 has a width b which is at least 3 times as wide as the height h of the outlet opening. As a result, a flat full jet is formed. In addition, the cleaning nozzle 17 is inclined relative to the horizontal by the angle α, ensuring that the upper side of the exit table 15 is spray-cleaned without cooling the underside of the hot strip (not illustrated).

[0050] FIG. 6 shows the last roll stand 7e of the finishing train 7 with a lifting roller 18 for lifting the finish-rolled hot strip 11 above the pass line P. Specifically, the rotatable, horizontally arranged lifting roller 18 is lifted by a linear drive 23, thus ensuring that the hot strip 11 comes to lie above the pass line P of the roll stand 7e. This ensures that there is no contact between the underside of the hot strip 11 and the exit table 15. The hot strip 11 can be lifted in a position-controlled and/or force-controlled manner. By means of the position control, an actual distance x in the vertical direction between the upper side of the exit table 15 and the underside of the hot strip 11 is set. Force control prevents the hot strip 11, which is typically thin or very thin, from being overstretched. The two controls are preferably superimposed on one another, thus ensuring that both the position of the lifting roller 18 and the elongation of the hot strip 11 are set in a controlled manner.

[0051] The photograph in FIG. 7 shows a surface defect on the underside of a thin hot strip 11 which has been scratched by scale Z after finish rolling. These surface defects are avoided by the invention, thereby increasing the quality and yield of the hot strip.

[0052] Although the invention has been illustrated and described more specifically in detail by means of the preferred illustrative embodiments, the invention is not restricted by the examples disclosed, and other variations can be derived therefrom by a person skilled in the art without exceeding the scope of protection of the invention.

LIST OF REFERENCE SIGNS

[0053] 1 continuous casting machine [0054] 2 mold [0055] 3 strand guide [0056] 4 roughing train [0057] 5 furnace [0058] 6 descaler [0059] 7 finishing train [0060] 7a . . . 7e roll stand [0061] 8 cooling section [0062] 9 shears [0063] 10 coiling or winding device [0064] 11 hot strip [0065] 12 working roll [0066] 13 back-up roll [0067] 14 cooling nozzle [0068] 15 exit table [0069] 16 stripper [0070] 17 cleaning nozzle [0071] 18 lifting roller [0072] 19 cooling unit of the cooling section [0073] 20 drive train [0074] 22 thickness measurement [0075] 23 lifting device [0076] 24 feed table [0077] A drive side [0078] α inclination angle of the cleaning nozzle to the horizontal [0079] B operator side [0080] b width of the outlet opening [0081] h height of the outlet opening [0082] P pass line [0083] T transport direction [0084] x offset [0085] Z scale