KR20010102015A - Tundish impact pad - Google Patents

Abstract

The present invention relates to a tundish impact pad formed of a refractory material, the impact pad comprising: a base having an impact face facing upward when used for receiving molten metal, for example iron, introduced into the impact pad, and the impact A sidewall extending upward from at least a portion around the face. The interior of the sidewall and at least a portion of the surface is porous and the impact pad is a means for supplying a gas such as argon into the porous interior of the sidewall to supply gas from the porous surface of the sidewall to the molten metal. It includes. The tundish impact pad can be used for continuous casting of iron.

Description

Tundish IMPACT PAD

International patent application WO 96/14951 (FOSECO) discloses a tundish impact pad comprising a body of refractory material that can withstand contact with molten metal in a tundish. The impact pad body includes a base having an impact face, an outer side wall extending upwardly from the impact face, and an upper surface defining an opening therein and connected to the side wall. The upper surface has an inner annular portion that is generally parallel to the impact face and has a corner that is generally perpendicular between the sidewall and the impact face and also between the inner annular portion of the sidewall and the upper surface. .

U. S. Patent No. 4,468, 012 discloses an apparatus for removing inclusions from molten metal flowing into a casting tundish. The apparatus includes long blocks of insulating material that can sinter at the temperature of the molten metal, which includes inorganic particles mixed in an organic binder that can decompose at the temperature of the molten metal to form pores in the insulating material. do. Ducts extend along each long block for the supply of inert gases that diffuse into the molten metal through the pores in the insulating material.

U. S. Patent No. 5,054, 749 discloses tundish for continuous casting of iron, which includes a permanent refractory mold on a thin metal frame defining the outer wall of the tundish. At the bottom of the tundish is a gas distribution chamber and a porous fireproof plate extending to the gas distribution chamber. A gas inlet duct extends from the upper edge of the tundish down through the permanent refractory to the gas distribution chamber.

British Patent Application No. 2164281A discloses tundish used in the iron fabrication process, which includes replaceable refractory linings disposed on the bottom and inner surfaces of the sidewalls of the tundish. Porous refractory tiles are supported on the upper surface of the refractory lining and have a major axis extending over the entire width of the tundish. The porous tile encapsulates a perforated conduit for the supply of inert gas, which makes it possible to remove unwanted contents from the iron and release through the width of the tundish from the tile. The tile has a ramp-like surface for deflecting iron flowing upwardly in the tundish towards the tile. The tundish also includes an impact pad upstream of the tile.

The present invention relates to the treatment of molten metals, in particular iron. The present invention is formed of a refractory pad installed on the bottom surface of a tundish impact pad, that is, a tumbled dish (a reservoir located at the top of a mold into which the molten metal is introduced) to receive an inflow of molten metal flowing from a ladle to a tundish It's about things. The invention is particularly useful in the continuous casting of iron.

1 is a schematic representation of a cross section of a one piece impact pad in accordance with the present invention.

2 is a schematic representation of a cross section of a two part impact pad in accordance with the present invention.

3 is a schematic representation of a cross section of a three part impact pad in accordance with the present invention.

4 is a schematic illustration of a cross section of a tundish comprising an impact pad according to the invention.

According to a first embodiment, the present invention provides a tundish impact pad formed of a refractory material, the impact pad having a base having an impact surface facing upward when used to receive molten metal flowing into the impact pad and the impact pad. A sidewall extending upward from at least a portion around the face, wherein the feature is that at least a portion of the interior of the sidewall and the surface is porous, and the impact pad comprises means for supplying gas into the porous interior of the sidewall. The result is that gas can be supplied from the porous side of the side wall to the molten metal.

According to the second embodiment the present invention

(a) a base portion formed of a refractory material and having an impact surface for receiving molten metal flowing into the impact pad during use; And

(b) an assembly for forming a tundish impact pad comprising a peripheral sidewall portion formed of a refractory material for attaching directly or indirectly to the base portion to form at least a portion of the sidewall at least around at least a portion of the periphery of the impact face. A kit of parts is provided wherein the feature is that at least a portion of the interior and the surface of the sidewall portion is porous and the base portion and / or the sidewall portion comprise means for supplying gas into the porous interior of the sidewall portion. As a result, gas can be supplied to the molten metal from the porous surface of the side wall portion.

According to a third embodiment, the present invention provides a tundish comprising molten metal, the tundish comprising a bottom and a sidewall formed of a refractory material and further comprising an outlet of the molten metal, wherein the feature is The tundish comprises an impact pad located at the bottom of the tundish, which is assembled into a kit of parts according to the first or second embodiment of the invention.

The gas is preferably an inert gas, for example argon or nitrogen, and is preferably supplied to the molten metal for the purpose of removing unwanted contents from the metal.

According to a fourth embodiment, the present invention is carried out in a tundish by means of a tundish impact pad which is assembled into a kit of parts according to the first or second embodiment of the invention. Provided is a method of removing an inclusion from a molten metal, the method comprising supplying gas to the molten metal from the porous sidewall of the impact pad.

By "porous" is meant that at least a portion of the sidewall comprises any arrangement capable of supplying gas to the molten metal from the interior of the sidewall. For example, the holes, channels or other gaps in the sidewall generally have some shape, for example they may be round or elongated when viewed in cross section, with round holes or slits, respectively, on the surface of the sidewall. slit) will appear. Furthermore, the porosity of the sidewalls may be, for example, irregular hole network shapes, or fairly regular channel structure shapes. The present invention relates to a "curtain" of a kind of gas bubbles surrounding the impact side (or at least part of the impact side) of the pad because the gas is supplied from the sidewall of the impact pad to the molten metal in the tundish. Has the advantage of providing. This will allow molten metal to flow into the impact pad and then out of the impact pad to flow normally through the gas curtain, and further the gas will come into contact with the molten metal immediately after the metal enters the tundish. Thus, the gas will generally have the longest possible contact time with the molten metal, and generally the gas will move with the metal when leaving the impact pad. This generally leads to more effective incorporation of the gas into the metal, thus allowing for more effective removal of unwanted inclusions, for example.

In a more preferred embodiment of the invention, the side wall of the impact pad is porous at least on top thereof. Preferably at least a portion of the upper surface of the side wall is porous.

The sidewall may comprise a ledge projecting inwardly, preferably located generally on top of the sidewall (but alternatively protruding from the side of the sidewall). "Protruding inwardly" means protruding at least a portion of the impact face of the impact pad. At least the central area of the impact face is preferably generally planar and generally horizontal in use. In such embodiments, the ledge is preferably generally parallel to the planar area of the impact face.

For embodiments of the present invention that include a shelf projecting inwardly, at least a portion of the porosity of the sidewall may advantageously include at least a portion of the shelf, and preferably at least its top face. For example, the entire top surface of the sidewall, including the top surface of the inwardly projecting shelf, can be generally porous. For example, the inwardly projecting shelf consists of a top of the porous and a generally nonporous bottom. Alternatively, the shelf may consist of the upper and lower portions of the porous and generally nonporous intermediate portions.

Additionally or alternatively, at least a portion of the porosity of the sidewall may be provided by a portion of the sidewall (eg shelf) located between the base and the top of the sidewall. In other words, the main body of the side wall may provide at least part of the side wall porosity. At least a portion of the inner and / or outer surface of the side wall may be porous, and thus gas may be supplied to the molten metal in use.

As mentioned above, a second embodiment of the present invention is a kit of parts for assembly to form a tundish impact pad. When a side wall or base of the impact pad according to the first embodiment of the invention is mentioned herein, the above also applies to the base or side wall portion of the kit of parts, respectively. Furthermore, as described above, in some preferred embodiments of the impact pad, the side wall includes a shelf that projects inwardly. When such embodiments of the impact pad are provided as a kit of parts according to a second embodiment of the invention, the inwardly projecting shelf can be made as part of a component of the side wall portion, which is further separation Or part of the side wall of the kit.

The means for supplying gas into the interior of the side wall preferably consists of one or more conduits. The term "conduit" includes meanings such as "pipe", "channel", "duct" and the like. Each conduit is preferably formed with a hole along at least a portion of its length to release the gas. The gas is thus preferably supplied generally to the entire porous region or regions of the sidewall (or the entire sidewall for embodiments in which the entire sidewall is porous). Thus the impact pad preferably comprises one or more conduits (eg conduit network) for supplying gas to the porous sidewall. For embodiments of the invention where the sidewall runs around the entire periphery of the impact face, the sidewall preferably includes at least one gas supply conduit (eg endless conduit) running through its entire length. .

The tundish preferably includes one or more gas supply conduits for supplying gas to the impact pad. In use, at least one conduit in the tundish is preferably connected to each conduit in the impact pad. For example, the connection between the tundish gas supply conduit and the impact pad conduit may be made at the base of the impact pad or at the sidewall of the impact pad, depending on the design of the tundish and the placement of the impact pad within the tundish. For an arrangement where a portion of the sidewall of the impact pad is located adjacent to the sidewall of the tundish, for example, the conduit connection may be conveniently made on the sidewall of the impact pad, while the impact pad is provided on the sides of the tundish. It is more convenient for the conduit connection to be made at the base of the impact pad in an arrangement located at a distance away from it. In the latter case the conduit connection may be under the base of the impact pad. However, it is generally preferred that the connection is made at the base side of the impact pad, for example the tundish conduit lies on the bottom of the tundish and is provided in the fire block or under the fire cover. The tundish conduit (s) is preferably connected to a gas source located outside of the tundish.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 shows in cross section a part of a tundish impact pad 1 formed of concrete. The impact pad comprises a base 3 with an upward facing impact face 5 for receiving molten metal flowing into the impact pad, and a side wall 7 extending upward from the periphery of the impact face. The impact pad is generally square or rectangular in plan view (but of course other shapes are also possible, for example other quadrilateral shapes, or round, eg circular). The upper portion 9 of the side wall 7 is formed of a porous concrete material. In use, a gas supply conduit (not shown) in the impact pad supplies gas into the interior of the porous portion 9, and the gas penetrates through the porous portion and is released from the upper surface of the sidewall of the impact pad. It is spun as a "curtain" of bubbles. The side wall comprises an inwardly projecting shelf 11, and part of the porous upper part 9 of the sidewall comprises an upper part of the shelf.

FIG. 2 shows an impact pad having a porous top portion 9 similar to that shown in FIG. 1. However, the impact pad comprises two important parts: the base part 13 comprising the base 3 and the lower area of the side wall 7 and the upper area of the side wall and the porous top 9 and non-porous. It is assembled into a kit of side wall portions 15 including portions 16. Two portions of the kit are assembled and joined to form the impact pad.

FIG. 3 shows an impact pad similar to that shown in FIGS. 1 and 2, except that the impact pad is assembled into three major parts, which includes an additional porous portion within the sidewall. The kit includes a base portion 17, a lower sidewall portion 19, and an upper sidewall portion 15 (which is the same as that of FIG. 2), wherein the portions are assembled to complete the impact pad and bonded to each other. do. The lower sidewall portion 19 includes a porous portion 23, and the upper sidewall portion includes an upper porous portion 9 and a lower nonporous portion 16. The lower porous portion 23 emits gas from its inner and outer surfaces. That is, the gas is released both into the tundish and out of the tundish. By combining with the upper porous portion 9 which releases gas from the upper side of the side wall, the gas bubbles surrounding the impact side as compared to that produced by the impact pad shown in FIGS. Results in deeper "curtain" production.

4 shows a schematic cross section of a tundish 25 filled with molten metal 27 and comprising an impact pad 1 according to the invention. The direction of flow of molten metal from the submerged inlet cover 29 to the impact face 5 of the impact pad, the flow of molten metal toward the outlet 31 via the bubbles of gas supplied by the impact pad, is indicated by arrows. appear. The gas supply conduit is not shown.

The invention has particular utility in the field of processing molten metals, especially in continuous casting of iron.

Claims (13)

A tundish impact pad formed of a refractory material comprising a base having an upwardly facing impact face when in use to receive molten metal flowing into the impact pad and a sidewall extending upward from at least a portion around the impact face, At least a portion of the interior of the sidewall and at least a portion of the surface is porous and the impact pad includes means for supplying gas into the porous interior of the sidewall such that gas can be supplied from the porous side of the sidewall to the molten metal. Tundish Impact Pad. (a) a base portion formed of a refractory material and having an impact surface for receiving molten metal flowing into the impact pad during use; And (b) an assembly for forming a tundish impact pad comprising a peripheral sidewall portion formed of a refractory material for direct or indirect attachment to the base portion at least a portion of at least a portion around the impact surface to form at least a portion of the sidewall. In the kit of parts, Means for supplying gas into the porous interior of the sidewall portion such that at least a portion of the interior and the surface of the sidewall portion is porous and the base portion and / or the sidewall portion allow gas to be supplied from the porous side of the sidewall portion to the molten metal. Kit of parts for assembly to form a tundish impact pad, characterized in that it comprises. A tundish comprising molten metal, a bottom and sidewalls formed of a refractory material, and further comprising an outlet of molten metal, The tundish is a tundish comprising an impact pad according to claim 1 or a kit according to claim 2 located at the bottom of the tundish. A method of removing contents from a molten metal in a tundish by means of a tundish impact pad according to claim 1 or an impact pad assembled from a kit according to claim 2, wherein the method is a molten metal from the porous sidewall of the impact pad. Supplying gas to the gas. The method of claim 1, wherein An impact pad, kit, tundish or method characterized in that the sidewall is porous only at its top portion. The method of claim 1, wherein At least a portion of the upper surface of the sidewall is porous. The method of claim 1, wherein Impact pad, kit, tundish or method characterized in that the side wall comprises a shelf protruding inwardly. The method of claim 7, wherein At least a portion of the porosity of the sidewall comprises at least a portion of the shelf. The method of claim 1, wherein Impact pad, kit, tundish or method, characterized in that the means for supplying gas to the interior of the side wall comprises one or more conduits. The method of claim 9, Each conduit has a hole formed along at least a portion of the length of the impact pad, kit, tundish or method. The method of claim 1, wherein The gas, impact pad, kit, tundish or method characterized in that the gas is an inert gas and preferably argon. The method according to any one of claims 3 to 11, The tundish comprises one or more gas supply conduits for supplying gas to the impact pad. The method of claim 12, At least one conduit in the tundish is coupled to each conduit in the impact pad.