EP2303481B1 - Device for cleaning a roll of a rolling mill - Google Patents

Description

The invention relates to high-pressure jet cleaning of a cylinder, for example a support cylinder or a working roll of a rolling mill, in particular a skin-pass mill. The document US-A 5460023 describes a device according to the preamble of claim 1.

• Effacer un palier élastique d'acier et permettre ainsi une meilleure qualité des emboutis qui seront ultérieurement réalisés dans les bandes,
• Améliorer une planéité de la bande,
• Imprimer un état de surface particulier à la bande, en vue d'améliorer une tribologie d'emboutissage.

The skin pass of a steel strip is a cold rolling operation under tension carried out with a moderate elongation. A rolling mill capable of operating skin-pass operations is incorporated in many steel strip processing lines where it is used essentially for the following purposes:

• Erase a steel elastic bearing and thus allow a better quality of stampings that will be made in the bands,
• Improve a flatness of the band,
• Print a particular surface condition to the tape, to improve a stamping tribology.

In some of their uses, a surface of the rolls of skin-pass mills may be polluted by adhesions that adversely affect the surface quality of the strip. This is, for example, the case of rolling mills installed online in continuous galvanizing plants. Zinc particles stick to the working cylinder. With each rotation of the cylinder, these particles print on a coating of the strip and can alter its surface quality. Another example is in certain applications, where it is necessary to lubricate a working cylinder gap with an emulsion of water and lubricant. In this case, a greasy deposit is generally formed on the cylinder in areas that are not in contact with the bandaged. When changing the width of the strip, this deposit can be detrimental to a roughness transfer on the edges of the strip.

To solve these problems, some solutions have been proposed. One solution employs cylinder cleaning devices by pressurized spraying of detergent fluids. These operations were first manual and then mechanized as described in JP 9 222 907 . However, these devices, using low pressure and wide jet nozzles, are effective in degreasing lubricant coatings due to a detergent effect of a sprayed liquid, but they do not are not able to eliminate adhesions including zinc particles.

• la nécessité d'ajuster avec précision une distance entre la buse et le cylindre à nettoyer, donc de s'adapter aux diamètres des différents cylindres utilisés,
• la nécessité d'avoir un recouvrement de l'impact des jets tout au long du cylindre, conduisant à une multiplication déraisonnable des buses de pulvérisation.

Another solution, described in EP 0 995 504 , uses narrow-jet and high-energy spray nozzles, which introduces two difficulties:

• the need to precisely adjust a distance between the nozzle and the cylinder to be cleaned, so to adapt to the diameters of the different cylinders used,
• the need to have an overlap of the impact of the jets throughout the cylinder, leading to an unreasonable multiplication of the spray nozzles.

This arrangement imposes a perfect adaptation of the speed of movement of the lance at a rotational speed of the cylinder according to a jet impact width. The patent discloses a possibility of adjusting a nozzle / cylinder distance and a speed of movement of the nozzle. This method is limited by a low speed of displacement imposed by characteristics of the high pressure nozzles. Given a relatively small dimension of a jet impact, it is necessary to have a slow speed of movement, in order to guarantee a good recovery of the impact. For cylinders with a diameter of about 500 millimeters, a table length of about 2 meters and a peripheral band speed of about 120 m / min at 650 m / min, the travel time of a nozzle along the cylinder is about 1 minute 30 seconds. At the base of a constant spraying in and out, one end of the cylinder opposite the half-turn of the nozzle is cleaned every 3 minutes and one end of the U-turn is cleaned almost immediately, which constitutes a wasted cleaning fluid and unnecessarily increased discards.

The object of the present invention is to solve problems of stability of the cleaning devices and problems of cleaning accuracy with respect to a surface to be cleaned of the cylinder, the problems being introduced by long strokes of the displacement members which cause a change. The entire device has an important point of gravity and equally important forces that operate at the ends of the device, thus producing high material wear.

Another object of the present invention is to reduce a cleaning time of the cylinder each round-trip in a fixed period adjustable between 30 seconds and 1 minute. As the spray is limited to one-way or return-only, the waste of cleaning liquid is removed.

• au moins un nombre pair de buses N > 0 à pulvérisation parallèle, lesdites buses étant perpendiculaires à l'axe du cylindre, un premier nombre N/2 des buses étant fixées à un premier bras d'un support et un seconde nombre N/2 des buses étant fixées à un deuxième bras du support, ledit support étant couplé à un organe de déplacement, par exemple un vérin, le vérin ayant une course au moins égale à 1/N d'une longueur du cylindre.

The invention thus proposes a device for cleaning a cylinder of a steel strip processing plant, adapted for a displacement parallel to an axis of said cylinder, comprising:

• at least an even number of parallel spray nozzles N> 0, said nozzles being perpendicular to the cylinder axis, a first number N / 2 of the nozzles being attached to a first arm of a support and a second number N / 2 nozzles being attached to a second arm of the support, said support being coupled to a displacement member, for example a jack, the jack having a stroke at least equal to 1 / N of a length of the cylinder.

These aspects are in particular retranscribed through claim 1.

Since the stroke of the jack is considerably reducible (in comparison with systems comprising a nozzle), it follows that deployments of the nozzle lift arm (s) are done with a mechanical stability that is advantageously increased, which makes it possible, for example, for the nozzles to remain at a constant speed. very constant distance from the cylinder, whatever their deployment.

Under these conditions, one of the cylinder zones swept by at least one nozzle is no longer cleaned in a time varying for example from 0 to 3 minutes each round-trip, but in a fixed period adjustable between 30 seconds and 1 minute following the number N of nozzles chosen. The cleaning frequency is therefore able to be increased in favor of a better quality cleaning because it is more intensive.

• Figure : Exemple d'un dispositif de nettoyage à quatre buses.

The subject of the invention and its advantages will be better understood by means of subclaims and examples given by the following figure:

• Figure : Example of a four-nozzle cleaning device.

The figure is divided into two parts 1a and 1b. Both parts show a rolling mill cylinder (1) supported by bearings (2). A cleaning device (3) is able to move towards the cylinder (1) parallel to an axis (5) of the cylinder (1) under the action of a jack (4). The cleaning device (3) comprises two supports (31) and (32) each providing a cleaning liquid supply of four nozzles (311, 312) and (321, 322) disposed in a first and a second pair of nozzles on each of the two supports (31, 32).

During an output phase of the jack (4) shown in part 1a of the figure, the first two nozzles (311, 312) are active and clean respectively a first zone (1-311) and a second zone (1-312) of the cylinder, the two said zones being juxtaposed. The second pair of nozzles (321, 322) is then inactive.

During the retraction phase of the jack (4) shown in part 1b of the figure, the second pair of the nozzles (321, 322) becomes active and cleans respectively a third zone (1-321) and a fourth zone (1-322). of the cylinder, the two said zones being juxtaposed and offset with respect to the preceding zones. The first pair of nozzles (311, 312) is then inactive.

A stroke (41) of the cylinder (4) is at least equal to a quarter of a length (11) of the cylinder.

As already discussed above, a major advantage of the invention is the fact that a displacement stroke of the nozzles is reduced to 1 / N of the length of the active surface of the cylinders, which makes it possible to reduce in the same proportion a stroke. of the cylinder (4). This improves the stability of the cleaning device (3) by minimizing a displacement of the center of gravity of the device, the displacement occurring at each stroke of the cylinder (4), as well as to increase the accuracy of the cleaning.

In a variant of the device the number of nozzles N is equal to four. The advantage in the metallurgical framework is to simplify the device (for example, to avoid an excessive number of nozzles) and likewise to considerably reduce a duration for a complete return of the nozzles (311, 312, 321, 322). Advantageously, the N nozzles (311, 312, 321, 322) are capable of spraying a liquid at high pressure on a surface of the cylinder (1). Using high pressure nozzles improves cleaning with a reduced amount of cleaning fluid. Another advantage is that a high-pressure jet makes it possible to take advantage of a mechanical detachment of the particles present on the surface of the cylinder, apart from chemical detachment caused by a detergent, which makes it possible to reduce a percentage detergent present in the cleaning liquid.

The N nozzles (311, 312, 321, 322) are arranged at an equal mutual distance, said distance being equal to a portion 1 / N (inversely proportional to the number of nozzles N) of the length of the cylinder (1). The distance between the nozzles is equal, making it possible to define for each of the N nozzles an exact cleaning part of the surface of the cylinder, avoiding cleaning areas superimposed, therefore superfluous.

In another variant, the device comprises means for adjusting a distance between the N nozzles and the cylinder. Advantageously, this variant makes it possible to adjust a width of the jet sprayed by the nozzles, in other words to adjust a contact surface of the jet with the cylinder. For example, in cases where spot cleaning is required, the distance will be decreased.

The cylinder (4) is arranged so that its stroke (minimized due to the number of nozzles distributed in a manner on the supports / arms adjoining the cylinder) is parallel to the axis of the cylinder (1). Because the invention provides that the stroke is minimized because of the number of nozzles distributed in the arms / supports adjoining the jack, the parallelism of the same stroke is all the easier to ensure, without resorting to a positioning system-cylinder heavy, bulky, complex and expensive.

The device comprises a control means adapted to activate a first part of the N nozzles (311, 312, 321, 322) and simultaneously to deactivate a second part of the remaining N nozzles during a first movement of the N nozzles caused by an output of the cylinder (4), said control means being also adapted to deactivate the first part and to activate the second part during a second movement of the N nozzles (311, 312, 321, 322) caused by a retraction of the jack (4).

The advantage produced is that a waste of cleaning liquid is reduced and that the round trip time of the nozzles is reduced.

Abbreviations

1

= cylinder

2

= bearings

3

= cleaning device

4

= cylinder

5

= cylinder axis

11

= length of the cylinder

31

= first arm

32

= second arm

41

= cylinder stroke

311

= first nozzle

312

= second nozzle

321

= third nozzle

322

= fourth nozzle

1-311

= first zone

1-312

= second zone

1-321

= third zone

1-322

= fourth zone

Claims (5)

1. Device for cleaning a roll (1) of a steel strip conversion plant, which device is designed to move parallel to an axis (5) of said roll (1), characterised by:

   at least an even number N > 0 of parallel spray nozzles, said nozzles being perpendicular to the axis (5) of the roll, a first number N/2 of the nozzles (311, 312) being fixed to a first arm (31) of a supporting member (3) and a second number N/2 of nozzles (312, 322) being fixed to a second arm (32) of the supporting member (3), said supporting member (3) being coupled to an actuator (4), the actuator (4) having a travel of at least 1/N of the length of the roll (1).
2. Device according to claim 1, characterised in that the nozzles N are four in number.
3. Device according to any one of the preceding claims, characterised in that the N nozzles (311, 312, 321, 322) are arranged at an equal distance from one another, said distance being equal to a portion 1/N of the length of the roll (1).
4. Device according to any one of the preceding claims, comprising means for adjusting a distance between the N nozzles and the roll.
5. Device according to any one of the preceding claims, comprising a control means capable of activating a first portion of the N nozzles (311, 312, 321, 322) and at the same time deactivating a second portion of the N nozzles which are stationary during a first movement of the N nozzles caused by an advance of the actuator (4), said control means also being capable of deactivating the first portion and activating the second portion during a second movement of the N nozzles (311, 312, 321, 322) caused by a retraction of the actuator (4).

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