JPH10277603A - Method and device for manufacturing strip - Google Patents

Abstract

PROBLEM TO BE SOLVED: To manufacture a refined strip more speedily and at a more lower cost by continuously subjecting the rolling strip to pickling treatment, cold rolling and plating treatment continuously and one after another in a continuous treatment line. SOLUTION: In a picking treatment part 5 following the inlet part 3 of a strip treatment line, the pickling treatment is performed to the rolling strip 2 to remove scale generated in hot rolling. After that, the rolling strip 2 is guided to an area reducing stand 6, and is formed to a product with a desired thickness. And, it passes through a cleaning device 7, and a thin oxidized film generated by rolling oil and the pickling is removed. Consequently, in a next plating treatment part 8, a satisfactory zinc film is stuck to the rolling strip 2 through a melting impregnation method, etc. After the plating treatment, when the rolling strip 2 passes through a finishing stand 9, it is smoothed. Further, by a straightening machine 10 installed after this process, a difference in flatness such as edge waviness or the center waviness of the rolling strip 2 is removed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention is based on the fact that, starting from a hot-rolled rough strip by means of a cold rolling mill connected to a separate or pickling section, the rough strip is first pickled. Producing a strip that has been cold rolled, plated and pickled, and then annealed to coat the cold rolled strip of a high temperature plating apparatus, followed by cold rolling and then plating. And equipment.

[0002]

2. Description of the Related Art In the prior art, it is known that a hot-rolled rough strip is pickled in a pickling line in order to produce a cold-rolled and plated strip. . This pickling treatment is used on the one hand to remove scales produced by hot rolling and on the other hand to remove oxide films formed on the strip. Subsequently, the pickled hot strip is formed in a cold rolling mill to a desired finished thickness, usually less than 1 mm. After the cold rolling step, the strip wound into a bundle is annealed and coated, for example, in a hot plating apparatus.

[0003] This strip processing step is performed in multiple steps as in the conventional method. This means that the pickling of the hot strip and the reduction to the finished thickness of the strip are carried out in a separate or connected cold rolling mill to a pickling apparatus. Here, the cold rolled strip is wound into a bundle (as described above) and conveyed to a remote hot plating apparatus, for example using a crane, floor carrier or air cushion type conveyor. . There, the strip is annealed and coated.

In such a process, the production capacity of the cold-rolled and plated strip is adversely affected, in particular by the time-consuming winding operation between the cold rolling mill and the plating equipment. Furthermore, this winding operation requires human assistance, which results in a very high overall production cost of the cold rolled and refined strip.
For this reason, marketing capacity is severely limited in the steel market, where sales are fierce.

[0005]

The problem underlying the present invention is that a method and apparatus of the kind mentioned at the outset can be constructed in the following way, that is to produce purified strips faster and cheaper. It is to be configured as follows.

[0006]

This object is achieved according to the invention by a method for pickling, cold-rolling and plating a rolled strip continuously and successively in a continuous processing line. You. The advantageous connection between the cold rolling step and the pickling and plating steps makes it possible to avoid wasting time and increase costs in continuous lines, between the cold rolling mill and the plating apparatus. Can be omitted. Thereby, on the one hand, the production capacity of the entire processing device is increased, and on the other hand, human assistance is reduced. Furthermore, the elimination of the winding operation results in very low input costs for the processing device according to the invention.

[0007] In summary, the above advantages result in a considerable reduction in the production costs per ton of refined, cold rolled strip. In order to carry out the method according to the invention, the invention provides that at least one surface-reducing stand is provided between the pickling and plating stations of the processing apparatus. In this reduction stand,
The rolled strip entering from the pickling section is cold-rolled directly and continuously to the finished thickness in a face-reduced hole form. However, a plurality of cold rolling stands can be subsequently connected to further reduce the strip thickness.

[0008] Other features and advantages of the invention will be apparent from the claims and from the following description.

[0009]

Embodiments of the present invention will be described below with reference to the accompanying drawings. The only figure schematically shows a strip processing line 1 operating in a continuous operation for pickling, cold rolling and plating of rolled strip 2. The strip processing line 1 is provided with an inlet 3 at which a rolled strip 2 previously hot rolled and wound up into a bundle is wound on a winding device 4. Furthermore, the inlet is provided with a strip welding device not shown here. The welding device assures a continuous strip passing which is advantageous for the process by welding the individual bundles into endless strips.

This inlet 3 is followed by a pickling section 5 in which the rolled strip 2 is acidified by, for example, electrolysis or an acidic fluid medium in order to remove the scale produced by hot rolling. Washed. Thereafter, the pickled rolled strip 2 is guided directly to the area-reducing stand 6 and is shaped to that thickness to obtain the desired finished thickness.

After the cold rolling step, the rolled strip 2 passes through a cleaning device 7 in which the rolled strip is coated with, for example, a rolling oil, ie a thin oxide film formed by rolling emulsion and by pickling. Removed. As a result, in the plating section 8 following the apparatus, good adhesion of the zinc film coated on the rolled strip by, for example, the melt impregnation method or the electrolysis is obtained.

Thereafter, the rolled strip 2 which has been plated and thereby rendered corrosion resistant passes through a finishing stand 9 where it is smoothed. Finish stand 9
A flattening machine 10 provided after this cooperates with this finishing stand to remove flatness differences, such as ear waves or medium waves, of the rolled strip caused by rolling and annealing.

Subsequently, the refined and rolled strip 2 is wound into a bundle on a winding device 12 arranged at the outlet 11 of the strip processing line 1.

[Brief description of the drawings]

FIG. 1 schematically shows a strip processing line operating in continuous operation for pickling, cold rolling and plating a rolled strip.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Strip processing line 2 Rolling strip 3 Inlet part 4 and 12 Winding device 5 Pickling processing part 6 Reduced surface stand 7 Cleaning device 8 Plating processing part 9 Finishing stand 10 Straightening machine 11 Exit part

 ──────────────────────────────────────────────────の Continuing on the front page (72) Inventor Klaus Krumma, Germany 57271 Hirchenbatzha, Hiruchjüterstraße, 49 a.

Claims (2)

[Claims] 1. Starting from a hot-rolled rough strip, the rough strip is first pickled, then cold-rolled and then plated, producing a cold-rolled, plated strip. The method according to claim 1, characterized in that the rolled strip (2) is continuously and successively pickled, cold-rolled and plated in a continuous processing line (1). 2. A processing apparatus for producing a strip subjected to cold rolling, plating and pickling, wherein at least one surface-reducing stand is provided between the pickling section (5) and the plating section (8). (6) A processing device provided with (6).