EP0847820A1 - Reservoir for supplying a liquid metal, especially a liquid steel - Google Patents

Abstract

Feed reservoir for holding a molten metal, notably steel comprises: (a) a refractory bottom (5); (b) some refractory walls; (c) at least one nozzle placed in the refractory bottom for feeding the molten metal to at least one mould; and (d) a refractory stopper incorporating a stopper bottom (11) and a partition (12) that is essentially vertical and defines a cavity (9). The stopper is arranged on the bottom of the reservoir, receiving a jet of molten metal from a ladle displaced above the reservoir and assuring a separation of the reservoir into two sections. The first section (13) incorporates at least one nozzle and the second section, the cavity (9) of the stopper (11), confines the molten metal which is then poured by overflowing above the partition (12) into the first section of the reservoir. The stopper (11) by which the partition (12) defines the second section of the reservoir is divided into two zones by a barrier (14). One zone (15) receives the jet of molten metal and the second zone (16) allows the rising of the metal to overflow into the first section (13) of the reservoir. The method using this reservoir for the transfer of molten metal from a ladle to at least one casting line is also claimed.

Description

The invention relates to a supply tank for retaining a molten metal and in particular a steel, tank comprising a bottom refractory, refractory walls, at least one nozzle placed in the refractory bottom to supply molten metal to at least one line of casting, a refractory pad comprising a pad bottom and a substantially vertical partition defining a cavity, the buffer being formed on the bottom of the tank on the one hand, to receive a jet of metal melted from a pocket moved above said tank and on the other hand, to ensure separation of the container from said tank in two spaces, a first space comprising at least one nozzle, and a second space, cavity of the buffer, confining the molten metal, metal which then overflows over the partition, into the first space.

The downstream development of a steel is done in a sequence involving a ladle pouring into a reservoir supply called distributor or distributor, the tank supplying liquid metal with at least one ingot mold of casting.

The supply tank constitutes the transfer reactor between the ladle and the casting mold.

• de transférer le métal liquide de la poche de coulée vers la lingotière de coulée,
• de répartir le métal liquide sur les différentes lignes de coulée et lingotières,
• d'amener le métal fondu à l'état non turbulent dans la ou les lingotières,
• de réaliser des coulées en séquence,
• d'éliminer dans certaines conditions, les plus grosses inclusions contenues dans le métal liquide par le biais, par exemple, d'habillages, de rampes de bullage.

The functions of the supply tank or distributor are:

• to transfer the liquid metal from the ladle to the casting mold,
• to distribute the liquid metal on the different casting lines and ingot molds,
• bringing the molten metal in a non-turbulent state into the ingot mold (s),
• to carry out castings in sequence,
• to eliminate under certain conditions, the largest inclusions contained in the liquid metal by means, for example, of dressings, of bubbling ramps.

The improvement in the operation of the supply tank is achieved by the use of cladding such as for example, an impact slab or buffer provided at the bottom of the tank, plumb with a tube jet protector located under the ladle.

The primary function of the tampon is generally to reduce the turbulence of the liquid metal jet coming from the ladle and entering in the tank, by the degradation of the energy of the liquid metal jet falling vertically into the tank.

In some cases, the buffer can limit short circuits, this is to say the durations at the end of which the first fluid thread of metal comes out of the tank and / or increase the residence times, that is to say the durations presence of fluid metal threads in the tank.

The object of the invention is to provide a specific area of energy degradation of the incoming liquid metal jet, especially steel and simultaneously ensure a reduction in the turbulence of the jet of metal by degradation of its energy.

The subject of the invention is a supply tank intended for retain a molten metal and in particular a steel, characterized in that the buffer whose partition defines the second space is divided into two zones by a barrier, a zone receiving the jet of metal, and a zone of rising of the metal, located opposite the first space in relation to the jet.

• le tampon comporte au moins une partie de cloison s'étendant au-dessus du niveau de débordement,
• la barrière assure le passage du flux de métal de la zone recevant le jet de métal vers la zone de remontée du métal au moyen d'au moins un trou de remontée ménagé sur ladite barrière,
• le trou de remontée ménagé sur la barrière est situé près du fond de tampon,
• le tampon comporte au moins un trou de vidange,
• le tampon est placé au contact d'au moins une paroi du réservoir de manière que la zone de remontée du métal soit située à l'opposé du premier espace comportant au moins une busette, par rapport au jet du métal sortant de la poche.
• le tampon est composé d'une cloison de séparation, d'un fond, et une barrière définissant un profilé en forme de C.
• le tampon est composé d'une cloison de séparation, d'un fond et d'une barrière, en deux pièces distinctes, la cloison de séparation formant un profilé en L avec le fond de tampon.
• le tampon est composé d'une cloison de séparation et d'une barrière, en deux pièces distinctes, la cloison de séparation ayant la forme d'une plaque.

The other characteristics of the invention are:

• the buffer comprises at least one partition part extending above the overflow level,
• the barrier ensures the passage of the metal flow from the zone receiving the metal jet towards the metal lifting zone by means of at least one lifting hole formed on said barrier,
• the ascent hole provided on the barrier is located near the buffer bottom,
• the tampon has at least one drain hole,
• the tampon is placed in contact with at least one wall of the reservoir so that the metal lifting zone is located opposite the first space comprising at least one nozzle, relative to the jet of metal leaving the pocket.
• the buffer consists of a partition, a bottom, and a barrier defining a C-shaped profile.
• the buffer is composed of a partition, a bottom and a barrier, in two separate parts, the partition forming an L-profile with the buffer bottom.
• the buffer consists of a partition and a barrier, in two separate parts, the partition having the shape of a plate.

• on déplace, dans le tampon, le jet en provenance de la poche de façon à l'orienter dans une direction opposée au premier espace comportant au moins une busette,
• on dirige le jet de manière à ce qu'il effectue une remontée sensiblement verticale,
• on déplace le métal de façon que la vague générée par la remontée se dirige transversalement, après débordement, vers le jet de la poche en direction du premier espace.

The invention also relates to a method for transferring molten metal and in particular steel from a ladle to at least one casting line into which the molten metal is poured into a supply tank intended to retain the metal, tank comprising a refractory bottom, refractory walls, at least one nozzle placed in the refractory bottom to supply molten metal to at least one pouring line, a refractory pad comprising a pad bottom and a substantially vertical partition defining a cavity, the pad being arranged on the bottom of the tank on the one hand, to receive a jet of molten metal from a pocket moved above said tank and on the other hand, to ensure a separation of said tank into two spaces, a first space comprising at minus a nozzle, and a second space, cavity of the tampon, confining the metal, metal which then spills, by overflowing above the partition, in the first space, characterized in that:

• the jet coming from the pocket is moved in the buffer so as to orient it in a direction opposite to the first space comprising at least one nozzle,
• the jet is directed so that it performs a substantially vertical ascent,
• the metal is moved so that the wave generated by the ascent flows transversely, after overflowing, towards the jet from the pocket in the direction of the first space.

The following description and the attached figures, all given to by way of nonlimiting example, will make the invention well understood.

Figure 1 is a diagram showing a sequence of the development swallows a steel.

Figure 2 is a sectional representation of an example of production of a refractory pad according to the invention, placed in a feed tank.

Figures 3, 4, and 5 are a sectional representation of other exemplary embodiments of a refractory pad according to the invention.

Figure 6 is a sectional representation of another example for producing a refractory pad according to the invention associated with tank walls.

Figure 7 is a perspective representation of a stamp of the type of that of figure 6.

Figure 8 is a sectional representation of another example for producing a refractory pad according to the invention associated with tank walls.

Figure 9 is a perspective representation of the stamp of the figure 8.

Figure 10 is another perspective representation of the buffer of figure 9.

In the downstream development of a metal, in particular a steel, such as represented in FIG. 1, a ladle 1 for casting supplies a reservoir supply 2, also called distributor or distributor, the supply tank 2 discharging the liquid metal 3 in one or several casting lines in one or more ingot molds 4 for casting.

The metal supply tank 2 includes a bottom refractory 5, refractory walls 6 intended to retain the molten metal in the supply tank 2, at least one nozzle 7 placed in the refractory bottom 5 which evacuates, by flow, the molten metal from the tank 2. A refractory pad 8 defining a cavity 9 is formed on the bottom 5 of the tank 2. It is intended to receive a jet 10 of molten metal from the pocket 1 moved above the tank 2.

In a first form of the invention, in the field of the development of steel, as shown in Figure 2, the cavity 9 of the pad 8, shown in section in a plane including the axis longitudinal of a hole 20, is formed by a buffer bottom 11 and a bulkhead 12 substantially vertical. The buffer is provided on the bottom 5 on the one hand, to receive a jet 10 of molten steel in from the pocket 1 moved above said tank 2 and on the other hand, to ensure a separation of said tank 2 in two spaces, a first space 13 comprising at least one nozzle, and a second space, cavity 9 of buffer 11, confining molten steel, steel which then overflows over the partition 12, in space 13.

The buffer allows, by confining the steel in the cavity 9, second space, to break down the initial energy of the steel flow entering the tank and then direct the molten steel to the surface over the entire tank width. The buffer therefore limits the turbulence of the jet of incoming steel, by the degradation of its energy. Buffer 8 is a piece of refractory concrete, which can be in one piece, formed on the bottom 5 of the reservoir and disposed directly above the jet protection tube 10 of ladle 1.

According to a characteristic of the invention, the buffer 11, the partition 12 defines the second space is divided into two areas by a barrier 14, a zone 15 receiving the jet of steel 10, and a zone 16 of rising of the metal, located opposite the first space 13 relative to jet 10.

Barrier 14 ensures the flow of steel flow from zone 15 to the zone 16 for raising said steel by means of at least one ski lift 19 crossing the barrier 14.

The ascent hole 19 of the barrier 14 is located near the bottom of stamp 11.

The pad directs the flow of metal entering a movement as represented by arrow A.

The buffer comprises, drilled in the partition 12, at least one hole 20 drain ensuring on the one hand, a flow of steel in the bottom 5 of the space 13 of the tank, in particular before the overflow of the steel filling the buffer 8, and on the other hand, a draining of the space 9 of the buffer at the end of casting.

As shown in Figure 3, the tampon, shown in section in the plane containing the longitudinal axis of hole 20, has at least a portion 17 of partition 12 extending above the level 18 of buffer overflow. Part 17 of partition 12 of buffer 11 formed in zone 16 of the steel rise, which returns the steel in direction of the space 13, can be tilted so as to facilitate the raising of said steel as shown in FIG. 4.

The stamp can have any geometric shape depending on the shape of the tank. It is preferably parallelepipedic.

The tampon according to the invention described above relates to a tampon monolithic that can be placed in any type of tank, without form limitation. The steel contained in spaces that may exist externally between the walls 6 of the tank and the partitions 12 of the pad can flow around the periphery of said pad.

In a preferred form of the invention, as shown in FIG. 5, the buffer 11 takes, in part, the form of at least one wall 6 of the tank 2 so that the zone 16 for the rise of the steel is located opposite the first space 13 comprising at least one nozzle, relative to the steel jet 10 leaving the pocket 1.

By keeping the same principle it is possible to associate the partition 12 of the buffer with the walls 6 of the tank, the walls 6 of the reservoir partly forming the cavity of the tampon 11, the zone 15 receiving the steel jet and the steel rise zone 16.

In this form of the invention, the stamp presented on the FIG. 6 is composed of a partition 21 of separation, of a bottom 22, and a barrier 23 defining a C-shaped profile. Zone 16 is formed between a wall portion 6 of the tank and the barrier 23 of the buffer. The stamp is represented in general, in perspective, in Figure 7. As shown in this figure, the tampon can have on the partition 21 a border 24 extending horizontally towards zone 15.

The edge 24 can end in a fallen edge 25 closing on itself the flow of steel from space 15.

In another form of the invention shown in Figures 8 and 9, the buffer is composed of a partition 26 for separating a barrier 27 and a bottom 28, in two separate parts, the partition 26 of separation forming an L-shaped profile with a bottom 28 of buffer.

The bottom 22 and or 28 constitutes a relatively reserve important of refractory, reserve which mitigates the wear consecutive to the violent impact of the incoming molten steel jet, especially during opening the pocket 1.

When the bottom 5 of the tank can withstand the impact of the jet of steel from the pocket, the buffer is essentially composed of a partition 26 for separation and a barrier 27, the bottom 22, 28 being able be deleted.

Alternatively, as shown in Figure 10, the bottom 11, 22, 28 comprises, in the area receiving the metal jet, a mass wear 29 comprising at least one inclined face. The tilted pan has for function of orienting the metal jet towards the barrier 14 and the ascent hole 19 crossing the barrier 14. The inclined face may have a face of particular shape such as flat, concave or convex.

The proposed tank provided with the buffer according to the invention optimizes the reduction of the turbulence of the liquid steel in the impact zone of the reservoir thanks to the creation of areas of strong energy degradation. he allows the flow of incoming metal to be directed towards the surface and into the direction opposite to the supply nozzles of the casting lines. he also optimizes short circuit times and residence times, which which improves the cleanliness of the steel produced.

The tampon can be located in an extreme part of a tank, when the tank has the general shape of an elongated parallelepiped. When the tank has the general shape called T, the nozzles are aligned in the first space which is the T bar. The buffer is then placed in the part perpendicular to the bar of the T, the steel jet melted from the pocket being oriented in the opposite direction at the first space, and after its ascent, moved so that the wave formed orients itself towards the jet from the pocket or cuts the jet transversely from the pocket towards the first space, according to the method of the invention.

Claims (9)

Feed tank for retaining molten metal and in particular a steel, tank comprising a refractory bottom, refractory walls, at least one nozzle placed in the refractory bottom to supply molten metal to a mold, a buffer refractory comprising a pad bottom and a substantially partition vertical defining a cavity, the buffer being formed on the bottom of the tank on the one hand, to receive a jet of molten metal from a pocket moved above said tank and on the other hand, for ensuring a separation of said tank into two spaces, a first space comprising at least one nozzle, and a second space, pad cavity, confining molten metal, spilling metal then by overflow above the partition, in the first space, characterized in that the buffer, the partition of which defines the second space is divided into two zones by a barrier, a zone receiving the metal jet, and a metal rising zone, located at the opposite of the first space in relation to the jet. Tank according to claim 1, characterized in that the pad has at least a partition portion extending above overflow level. Tank according to claim 1, characterized in that the barrier ensures the passage of the metal flow from the area receiving the jet of metal to the metal rising zone by means of at least one hole ascent on said barrier. Tank according to claim 3, characterized in that the hole The barrier lift is located near the buffer bottom. Tank according to claims 1 to 4, characterized in that the tampon has at least one drain hole. Tank according to claims 1 to 5, characterized in that the tampon is placed in contact with at least one wall of the reservoir so that the metal lifting zone is located opposite the first space comprising at least one nozzle, relative to the jet of the metal coming out of the pocket. Tank according to claims 1 to 6, characterized in that the buffer consists of a partition, a bottom, and a barrier defining a C-shaped profile. Tank according to claims 1 to 6, characterized in that the buffer consists of a partition wall and a barrier, in two separate rooms, the partition forming an L-profile with the buffer base. Method for transferring molten metal and in particular steel from a ladle to at least one casting line into which the molten metal is poured into a supply tank intended to retain the metal, tank comprising a refractory bottom, refractory walls, at least one nozzle placed in the refractory bottom for supplying molten metal to at least one casting line, a refractory pad comprising a pad bottom and a substantially vertical partition defining a cavity, the pad being formed on the bottom of the tank on the one hand, to receive a jet of molten metal from a pocket displaced above said tank and on the other hand, to ensure a separation of said tank into two spaces, a first space comprising at least one nozzle, and a second space, cavity of the buffer, confining the metal, metal which then spills overflowing above the partition, in the first space, characterized é in that: the jet coming from the pocket is moved in the tampon so as to orient it in a direction opposite to the first space comprising at least one nozzle, the jet is directed so that it performs a substantially vertical ascent, the metal is moved so that the wave generated by the ascent crosses transversely towards the jet of the pocket in the direction of the first space.

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