METHOD AND DEVICE FOR COOLING A LEADER OR BAND OF A METAL STRAND IN A HOT-ROLLING MILL

Abstract

The invention relates to a hot-rolling mill for cooling a leader or band (4) of a metal strand in a working roll (6, 7), in which a coolant is sprayed on the leader or the band (4), is characterized in that the leader or band (4) is shielded from contact by the coolant in the area of the band edges. Shielding devices (14, 15) are used for said purpose. A shielding device (20) can also be disposed in the area of a loop lifter, or in a cooler device between the pretreater and the final line.

Description

The invention relates to a method and a device for cooling a preliminary strip or strip of a metal strand in a hot rolling mill which contains work rolls, wherein a cooling agent is sprayed onto the preliminary strip or the strip.

In a hot rolling mill, several cooling devices are known or defined in the areas of the preliminary train and the finishing train, such as:

• • the preliminary strip cooling (arrangement between preliminary stand and first finishing stand)
  • the intermediate stand cooling (arranged between two finishing stands)
  • the strip bottom side cooling (positioned in front of a lateral guidance or behind a loop lifter)
  • roll gap cooling (cooling of the strip shortly before the roll gap on both sides or one side).

The various cooling devices influence the surface temperature pattern, scale growth, mechanical properties, production quantity, etc. The cooling occurs uniformly across the width of the strip. As a rule, the temperature of the preliminary strip as well as the strip temperature are colder in the entire finishing train in the areas of the strip edges. The above-mentioned cooling devices further enforce this effect. By using the method and devices described in the invention, this disadvantage is to be avoided and the temperature uniformity is to be even improved. The novel cooling method or cooling device will be described in more detail in connection with the example of the roll gap cooling.

A device of this type is known from patent DE 4134599 C1. This patent relates to a method for hot rolling of metal strip with one or more passes, wherein especially on the inlet side of the roll stand or the roll stands the preliminary strip or the strip are cooled.

The known method is characterized in that the spraying of the cooling liquid on the inlet side over the entire width of the metal strip takes place as closely as possible in front of the roll gap onto the metal strip and onto the jackets of the work rolls, so that the strip surface is undercooled and thereby a low thermal flux into the work roll is created.

This manner of operation is based on the recognition that by cooling the strip surface of a steel strip immediately prior to entering the roll gap formed by two rolls the service life of the roll surface is increased to a significant extent. As a result of this measure a “peeling” of the work rolls, i.e., a separation of the oxide layer from the upper surface of the work roll, is substantially avoided or significantly postponed. This also has an indirect positive effect on the quality of the strip surface.

As a rule, the temperature of the preliminary strip as well as of the strip of a metal strip to be rolled is lower in the middle of the preliminary strip or of the strip. In FIG. 1, the temperature of a metal strip is illustrated as a function of the width of the metal strip which travels through the roll stands of a hot rolling mill. In this drawing, the strip middle of a metal strip is illustrated at the left border of the diagram. A curve 1 shows the pattern of the temperature prior to the entry of the metal strip into a roll stand. A curve 2 shows the temperature pattern after the emergence from the roll stand. In both curves, the sharp temperature drop in the edge areas of the metal strip can be recognized. Due to the fact that the temperature of the metal strip, as well as of the preliminary metal strip, is lower in the edge areas than in the middle, different local loads act on the metal strip which themselves have a negative effect on the metal strip as well as on the work rolls. The affected areas of the work rolls may wear to a greater extent, so that profile anomalies and/or problems with respect to strip planeness occur. The cold strip edges can also have a negative effect on the metallurgical properties at the edges of the strip.

The use of a method known from the prior art for cooling the middle of the strip prior to the roll gap can even further increase the temperature difference of the strip toward the strip edges and associated the negative effects. Similar effects also occur in the other cooling devices mentioned above.

It is the object of the invention to provide a method for hot rolling a metal strip in which a uniform pattern of the temperature over the transverse profile can be achieved without heating the strip edges, for example, by means of edge heaters.

In a method of the above-described type, this object is met by screening the preliminary strip or the strip in the area of the strip edges from the application of the cooling agent.

The active roll gap cooling according to the present invention results in a homogenous temperature pattern according to curve 3 in FIG. 1 and further improves the strip properties and the wear of the rolls.

Advantageous further developments of the invention result from the dependent claims.

Preferably, a method is used according to which the cooling agent is deflected in the areas of the strip edges of the preliminary strip or of the strip, so that it does not impinge on the preliminary strip or the strip in the areas of the strip edges. Preferably, the cooling agent is deflected in the areas of the strip edges toward areas outside of the preliminary strip or the strip, although, in principle, it would also be possible to deflect the cooling agent toward the strip middle. Preferably, the measures according to the present invention are carried out in the areas of the inlet guidance of the work rolls.

The invention also relates to a hot rolling mill with a preliminary train and a finishing train for rolling a preliminary strip or a strip of a metal string by means of work rolls and with a cooling device for applying a cooling agent onto the preliminary strip or the strip.

The hot rolling mill is characterized in that means are provided for screening the strip edges of the preliminary strip, of the thin slab, or the strip from the influence of the cooling agent. Preferably, the means are arranged in the area of lateral guides of the preliminary strip or the strip.

The lateral guides are arranged in particular in front of an inlet gap formed each by two work rolls. In this connection, the means for screening the strip edges are fastened to the lateral guides, particularly as separate structural elements. They can advantageously be moved together with the lateral guides transversely of the train travel direction of the preliminary strip or the strip. The screening means further advantageously ensure that the cooling agent is deflected by the preliminary strip or the strip away toward the outside.

The screening means can also be arranged in the area following a loop lifter or looper on the bottom side of the preliminary strip or the strip.

In the following, the invention will be explained in more detail in connection with embodiments. In the drawing:

FIG. 2 a shows a sectional view of a metal strip traveling through a roll stand in the area between two cooling beams transversely of the travel direction with lateral guides and devices in the side areas of the metal strip for screening the cooling agent from the edge areas of the metal strip in front of the inlet gap of two work rolls,

FIG. 2 b is a top view of the metal strip according to a line II-II of FIG. 2a and additionally a screening device for screening cooling agent which is arranged in front of the inlet lateral guides, and

FIG. 3 shows a sectional view of the metal strip and a lateral guide in accordance with line III-III of FIG. 2a, as well as additionally the cross sectional view of the screening device arranged in front of the lateral guide.

In a rolling mill including a plurality of roll stands, a preliminary strip and a strip 4 (FIGS. 2a, 3) of a metal strand to be rolled run through the roll gaps 5 between always two work rolls 6, 7. In the areas in front of the work rolls 6, 7 lateral guides 8, 9 are mounted at the side edges of the strip 4, wherein the guides 8, 9 are constructed approximately U-shaped in cross section and engage over the strip 4 on the top side and the bottom side in the edge areas thereof.

On the upper and lower sides of the strip 4, cooling devices are provided as cooling beams 10, 11 from whose nozzles 12 is sprayed a cooling agent, particularly water, under pressure onto the surface of the strip 4 in order to cool the strip. The nozzles 12 produce on the surface of the strip 4 impingement areas 13 of the cooling agent. According to the invention, screening devices 14, 15 are provided which prevent the cooling medium from being sprayed directly onto edge regions of the strip 4 from the nozzles 12′ in the edge areas of the strip 4. The screening devices 14, 15 deflect the cooling agent jet always preferably in the area laterally of the strip 4.

In particular the upper screening device 14 therefore includes on both sides of the strip 4 downwardly inclined plates 16 and 17, inclined toward the outer side of the strip 4. On the bottom side of the strip 4, plates 18, 19 of the screening device 15 can also extend horizontally relative to the plane formed by the strip 4 because the cooling agent is already deflected downwardly as a result of the force of gravity.

Preferably, the screening devices 14, 15 or 16, 18 can be attached to the guides 8, 9 as separate components, or the screening devices 14, 15 or 16, 18 are fixed components of the guides 8, 9. If the guides 8, 9 are displaceable in accordance with the width of the strip 4 to be rolled transversely of the travel direction of the strip 4 in the direction of double arrows A, B, the screening devices 14, 15 or 16, 18 are displaced in the same manner. It can also be provided that the plates 18, 19 are pivotable or inclined in order to adjust the impingement area of the screened cooling agent jets.

In addition to the arrangement of the screening devices 14, 15 or 16, 18 in the areas in front of the roll gaps 5 between work rolls 6, 7, a screening device 20 can also be arranged in front of the lateral guides 8, 9 on the bottom side of the strip 4; this is additionally illustrated in FIGS. 2b, 3. The screening device 20 is in principle constructed as the screening devices 14, 15 or 16, 18 and comprises in the same manner the plates 21 for deflecting the cooling agent which flows from the nozzles 22 of a cooling beam 23.

It is understood that the invention can be used independently of the fact whether the cooling agent flows from individual nozzles or is injected in form of a curtain on the strip 4 which has a rectangular nozzle opening extending over the width of the strip 4. In addition to water it is also possible to use as cooling agent other media, such as liquid nitrogen or water/air mixtures.

The device for screening the edges of the strip 4 described in connection with the Figures can also be utilized within the finishing train at various locations, particularly also in a preliminary strip cooling or an intermediate stand cooling. In this connection, separate adjusting mechanisms can be used for moving and adjusting the screening elements to the strip width.

Claims

1-11. (canceled)

12. A method for cooling a preliminary strip or strip of a metal strand in a hot rolling mill including work rolls, comprising the steps of: spraying a cooling agent onto the preliminary strip or strip; screening the preliminary strip or strip in an area of edges of the strip from influence by the cooling agent; and, deflecting the cooling agent in the area of the strip edges of the preliminary strip or the strip, wherein the cooling agent is deflected from the strip edges in an area of an inlet guide of a work roll.

13. The method according to claim 12, including deflecting the cooling agent in the area of the strip edges to areas outside of the preliminary strip or the strip.

14. A hot rolling mill, comprising: a preliminary train and a finishing train for rolling a preliminary strip or a strip of a metal strand with work rolls; lateral guides for guiding the preliminary strip or strip, the lateral guides being arranged in front of an inlet gap formed always by two work rolls; a cooling device for applying a cooling agent to the preliminary strip or the strip; and means for screening the strip edges of the preliminary strip or strip from the influence of the cooling agent, wherein the screening means are arranged in an area of lateral guides.

15. The rolling mill according to claim 14, wherein the screening means are attached to the lateral guides.

16. The rolling mill according to claim 15, wherein the screening means are separate structural elements.

17. The rolling mill according to claim 14, wherein the means are moveable together with the lateral guides transversely of a travel direction of the preliminary strip or the strip.

18. The rolling mill according to claim 14, wherein the means deflect the cooling agent outwardly away from the preliminary strip or the strip.

19. The rolling mill according to claim 14, and further comprising a loop lifter, wherein the screening means are arranged on a bottom side of the preliminary strip or the strip in an area following a loop lifter.

20. The rolling mill according to claim 14, further comprising further means for screening the strip edges in an area of an intermediate stand cooling.

21. The rolling mill according to claim 20, wherein the further means for screening the strip edges is arranged in a cooling device in areas between a preliminary stand and a first finishing stand.

22. The rolling mill according to claim 20, wherein the further screening means includes a width adjustment device.

23. The rolling mill according to claim 22, wherein the screening width is adjustable differently for various devices.