Patent Application
20230034415
The invention relates to continuous hot-dip coating installations for a metal strip. It finds its place in continuous sheet processing lines, in particular annealing and galvanizing lines.
A dip coating line is schematically composed, from the entrance thereof, of a heating section, a cooling section, a coating section in which the strip is immersed in a molten metal bath contained in a pot, for example zinc or an alloy based on zinc, aluminum, silicon or magnesium, and a cooling tower allowing the solidification of the metal on the strip and the cooling of the latter to ambient temperature.
Thus, after having undergone a heat treatment comprising heating and cooling in an annealing furnace under a controlled reducing atmosphere, a mixture of nitrogen and hydrogen, the strip is protected from external attacks by immersion in a molten metal bath in a continuous process. On leaving the bath, the coating coats the sheet, which can then be exposed to the air without risk of oxidation. For galvanizing, the bath temperature is around 460° C. The strip has substantially this temperature when it is immersed in the bath.
The connection between the furnace and the coating bath is made by a duct, which is a tunnel that dips into the pot of molten metal and thus ensures the sealed connection between the furnace and the bath. The end of this duct that dips into the bath is a consumable part due to corrosion by the molten metal. It is characterized by a thick sheet thickness in order to prolong its life in view of corrosion. This consumable part will be referred to as “shoe” in the rest of the description.
A roller immersed in the molten metal, called the bottom roller, allows the deflection of the strip to cause it to exit vertically from the pot and to pass through the cooling tower.
Many ducts are equipped with a pivoting movement allowing the use of bottom rollers of different diameters. They are also equipped with a retraction movement allowing the shoe to be removed from the molten metal for maintenance operations.
The strip passing through the pot carries molten metal with it, which results in a lowering of the level. Maintenance of the level is managed by an external supply in the form of solid blocks introduced into the pot.
Surface mattes, which are metal oxides, in particular zinc oxides, intermetallic compounds or complex agglomerates, create a film of solid matter on the surface of the zinc pot. These mattes can end up in the shoe; they are then carried along by the strip into the molten metal and become stuck between the bottom roller and the strip. When passing over the bottom roller, the mattes punch the strip and create a spur on the other face. These surface defects on the strip make it unsuitable for use for demanding applications in terms of surface quality, for example for the exposed sheets of automobiles.
To remedy the problem of surface mattes being carried along with the strip, several surface cleaning solutions inside the shoe have been invented.
For example, JP04120258 describes a shoe containing, at its lower end and inside the latter, a reservoir on the circumference of the shoe, thus going around the strip, in which the molten metal is sucked by a recirculation pump before being released inside the pot. The renewal of the molten metal inside the shoe makes it possible to remove the mattes outside of it. The reservoir is formed by an extension of the outer walls of the shoe toward the inside of the shoe.
A first drawback of these solutions according to the state of the art is that the reservoir is part of the shoe, the shoe and its reservoir being one and the same. It is thus imperative to cut the strip for reservoir cleaning operations, which then leads to a long downtime of the line.
A second drawback of these solutions is that no adjustment is possible between the internal reservoir and the shoe to obtain precise geometric adjustment of the reservoir relative to the surface of the bath in the shoe. This is particularly troublesome in the case where the shoe comprises two internal reservoirs, one on each side of the strip. Indeed, when the adjustment of the duct is modified by a rotational movement of the latter about its pivot axis, this has the effect of raising one of the two reservoirs and lowering the second. This results in a difference between the immersion depths in the bath of the two reservoirs. The leveling of the system therefore imposes an adjustment of the entire duct, made complicated by its weight and by its pivoting and retraction systems.
According to a first aspect of the invention, proposed is a device for removing mattes from the surface of a liquid metal bath inside a duct of a line for continuously coating a metal strip having first and second faces, the first face being intended to come into contact with a bottom roller, comprising a compartment forming a reservoir via which the liquid metal inside the duct is replenished by being drawn off by a pump to which the compartment is connected, characterized in that the compartment is fixed to a support by attachment and adjustment means and is capable of being removed by disassembly means without the metal strip needing to be cut.
Advantageously, the compartment is arranged, relative to the metal strip, on the side of the first face.
According to one possibility, the device comprises a second compartment arranged, with respect to the metal strip, on the side of the second face. The position of the two compartments, in particular their horizontality, can be adjusted independently of each other.
Preferably, the compartment is separable from the duct.
According to one embodiment, the compartment can be held by two arms connected to the duct by attachment and adjustment means.
According to a variant, the compartment can be held by two arms connected to the pot containing the liquid metal bath by attachment and adjustment means.
According to another possibility, the compartment can be held by two arms connected to a support structure external to the pot containing the liquid metal bath by attachment and adjustment means.
Advantageously, the device according to the first aspect of the invention may comprise means for adjusting the position of the compartment independent of means for adjusting the duct.
According to one embodiment, each lateral end of the compartment is connected to a position indicator flush with the surface of the bath outside the duct when the position of the compartment, in particular its horizontality, is correctly adjusted.
The device can also be equipped with a camera placed in the duct and making it possible to view a surface of the bath inside the latter. The compartment may comprise at least one indicator of the position of a front face of the compartment relative to the metal strip emerging from the surface of the bath visible by the camera, said position indicator being connected to a position indicator flush with the surface of the bath outside the duct when the position of the compartment, in particular its horizontality, is correctly adjusted.
According to a second aspect of the invention, proposed is a continuous coating line comprising a duct and a pot arranged to receive a liquid metal bath, further comprising a device for removing mattes according to the first aspect of the invention, or one or more of its improvements.
According to a third aspect of the invention, provided is a matte removal method for removing mattes from the surface of a liquid metal bath inside a duct of a line for continuously coating a metal strip, comprising a compartment forming a reservoir through which the liquid metal present inside the duct is replenished by drawing off by a pump to which it is connected, comprising a step of removing said compartment not comprising a step for cutting the metal strip.
Other features and advantages of the invention will become apparent from the detailed description that follows, for the understanding of which reference is made to the appended drawings, in which:
Since the embodiments described hereinafter are not limiting in nature, it is possible in particular to consider variants of the invention that comprise only a selection of the features that are described, provided that this selection of features is sufficient to confer a technical advantage or to differentiate the invention from the prior art. This selection comprises at least one preferably functional feature without structural details, or with only a portion of the structural details if this portion alone is sufficient to confer a technical advantage or to differentiate the invention from the prior art.
In the remainder of the description, elements having an identical structure or similar functions will be designated by the same references.
In a variant embodiment that is not shown, a second independent compartment is placed on the other face of the strip, opposite the first, so as to accentuate the replenishment of the bath inside the shoe. The two compartments are then separate from each other and supported separately so that they can be removed without it being necessary to cut the strip. Thus, one compartment can be removed while the second remains in place. They are also adjustable independently of each other so as to adjust the position of one, relative to the surface of the bath and to the strip, without affecting the second. Thus, for example, the distance between the compartment and the strip may be different on the two faces of the strip. Advantageously, the two compartments are connected by at least one hydraulic connection so that a single pump is sufficient to suck up the molten metal present in the two compartments. This hydraulic connection comprises a flexible section allowing relative movement between the two compartments. It also comprises an easily disconnectable connecting means to facilitate the removal of the independent compartments and the equipment associated therewith.
The independent compartment 50 extends over the width of the shoe 40 so that its length is at least equal to the width of the strip. It is mechanically connected to two side arms 13 arranged laterally on either side of the duct 3 and becoming fixed on the latter, or on the shoe 40, by an attachment and adjustment means 14. The attachment and adjustment means 14 is a means of removing the independent compartment 50.
The attachment and adjustment means 14 make it possible to independently adjust the relative lateral and top and bottom positions of each arm with respect to the duct. They allow the horizontality of the compartment 50 independently of the horizontality of the shoe and independently of the distance between the independent compartment and the strip. The attachment and adjustment means 14 make it possible to adjust the immersion depth in the bath of the compartment 50, with a fine adjustment making it possible to precisely adjust the latter at each of the lateral ends of the compartment. They also make it possible to precisely adjust a distance L between an upper edge 25 (
As shown in
At least one pump 17 (
A camera 30 (
The pump is designed to be disassembled without tools and in production. It is held mechanically by one of the side arms 13, directly or indirectly, for example via the pipe 18. The independent compartment 50 can also be mechanically connected to this first arm 13 by this same pipe 18. It can be connected to the second arm 13 by a mechanical connection 20 similar to that obtained by the pipe 18. As a result, the independent compartment, the pump and the suction 18 and discharge 19 pipes form an assembly that can be assembled, dismantled and adjusted via the attachment and adjustment means 14, independently of the position of the duct 3 and the shoe 40. The mounting and disassembly of this assembly does not require cutting the strip.
The compartment has a lifespan of a few weeks whereas a shoe, due in particular to its thickness, has a lifespan of a few months. According to the state of the art, the compartment is secured to the shoe. This solution is therefore costly in terms of maintenance, since it requires scrapping the shoe more frequently than necessary. According to the invention, it is possible to replace the independent compartment, or any other element associated therewith, with a periodicity different from that of the shoe.
As a variant, the equipment comprises a second pump, for example placed at the other end of the independent compartment. It is then held mechanically by the other side arm 13, directly or indirectly. This second pump has its own suction 18 and discharge 19 pipes, separate from those of the first pump. Having two pumps can have advantages, for example a better balance of the masses on the duct. Additionally, smaller sized pumps are more readily available and with a wider choice of potential suppliers. Having two pumps also makes it possible to operate in degraded mode in the event of failure of one of the two pumps.
The current of molten metal inside the shoe, caused by the suction of the pump, or of the two pumps, makes it possible to remove the mattes toward the independent compartment before being removed from the independent compartment, in the pot 8, by the pump 17. The horizontality of the independent compartment is therefore important to have a homogeneous flow of molten metal all along the strip; this is made possible by the attachment and adjustment system 14. The external position indicator 15, on each side of the compartment, allows the operator of the installation to view the position of the latter and to correct it if necessary. As the strip consumes molten metal, it lowers the level of molten metal in the pot 8. To compensate for this, metal is added by immersing ingots in the bath. A means 21 for measuring the height of the bath allows the height of the bath to be controlled. For example, the measuring means 21 is a measuring laser that points from above on the level of molten metal in the pot 8. When the measuring means 21 detects a low level, equipment for loading molten metal ingots performs an ingot lowering step into the pot of molten metal, which results in raising the level in the pot.
The independent compartment as well as the other elements in contact with the liquid bath, in particular the pump 17 and its suction and discharge pipes, are made of stainless steel of the 316L type.
According to a variant embodiment not shown, the independent compartment 50, and the elements that are attached to it, are mechanically connected to a support structure external to the pot 8.
The solutions for which the independent compartment, and the elements that are attached to it, are mechanically connected to the pot 8 or to a structure external to the latter are particularly advantageous for the addition of a matte removal device on an installation that did not comprise one. Thus, the duct can be retained, no additional weight being added to it.
As will be readily understood, the invention is not limited to the examples that have just been described, and numerous modifications may be made to these examples without departing from the scope of the invention. In addition, the various features, forms, variants, and embodiments of the invention may be grouped together in various combinations as long as they are not incompatible or mutually exclusive.
| Number | Date | Country | Kind |
|---|---|---|---|
| 1915599 | Dec 2019 | FR | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/FR2020/052387 | 12/11/2020 | WO |
