EP0953394A1 - Refractory pipe with exterior insulation and method to seal the joints - Google Patents

Abstract

The face of the channel tube on the liquid metal entry side is covered by the outer insulating lining. The outer, heat insulating lining (10) covers the face (4) of the refractory channel tube (2) on the entry side of liquid metal. Sealing the joint between the lining (10) and the tube (2) includes winding a refractory string and/or a fabric wound around the outer circumference (3) of the tube (2); pushing the two components are pushed into one another, with an interposed layer of mortar and/or cement, so the lining (10) covers the face (4) of the tube (2).

Description

The invention relates to a tubular refractory duct, especially fireproof nozzle, as a passage for liquid Metals, especially liquid steel, with the channel in one heat-insulating outer lining can be used and the channel and if necessary, the outer lining with a refractory mortar layer are connectable.

The invention further relates to a method for sealing of joints between two interlocking refractories Parts, especially rotationally symmetrical parts, with can be connected to a refractory mortar or putty against the penetration of liquid metal, in particular liquid steel.

Such a device is in DE 196 51 534 A1 described. A fireproof pouring sleeve is a wearing part inserted into an insulating intermediate sleeve. In the there is a kit layer between the sleeves intended. The pouring sleeve becomes inductive at the casting temperature heated. As a result, the kit layer almost reaches the casting temperature. It can dwindle, which means that after some wear liquid metal between the Sleeves can enter. This is undesirable. Especially at inductive heating of the pouring sleeve then couples this into the Join liquid metal that has entered itself to the electromagnetic Field of the inductor, which makes it additional is heated and liquefied, so that there is a risk that the putty joint is highly corrosive, leading wears out and thus results in further liquid metal can enter the joint. There is also a risk of Breakthrough of liquid metal at the other end of the joint. in the the liquid metal entering the joint shields the rest the pouring sleeve against the electromagnetic field of the Inductor at least partially, so that their desired Heating is impaired.

The object of the invention is a channel and a joint seal to propose the type mentioned at the beginning, whereby should be avoided that liquid metal in the joint entry.

According to the invention, the above object is achieved in that the heat-insulating outer lining the metal inlet side End face of the tubular channel covered. The outer lining protrudes axially from the end face of the tubular channel and radial direction, so that the end face on the one hand is protected and on the other hand that between the channel and the External lining existing joint with a refractory mortar can be filled in the main axial flow direction of the liquid metal is not accessible, so that none substantial amounts of the liquid metal in the joint can occur.

In a preferred embodiment of the invention, the between existing joint in the area of the End face of the channel at least simply approximated in radial and approximately axial direction of the channel labyrinthine angled. This lengthens the joint and makes it difficult the entry of liquid metal, especially when using Mortar or putty is filled out because of the liquid metal enter the joint against the main flow direction would have to do what is not to be expected.

In a preferred embodiment of the invention, the channel is included a refractory cord and / or a refractory fabric tape wrapped around. According to the volume of the cord and / or the The volume of mortar in the joint becomes smaller so that shrinkage of the mortar has less of an impact. For the cord and / or the fabric tape can be a material use that shrinks much less than the mortar and not like the mortar becomes hard and brittle due to sintering, but retains a certain elasticity through cracking. The cord and / or the fabric tape preferably consist of essentially made of carbon.

A method of the type mentioned at the outset is characterized by this from that on the outside diameter one in a first fireproof part (outer lining) insertable second refractory part (channel) a circumferential refractory cord or a circumferential fire-resistant fabric tape is applied and that then the two parts in one if necessary mortar and / or putty bed placed between them be pushed over one another so that the first refractory Part as a heat-insulating outer lining on the metal inlet side the face of the second refractory part (channel) covered.

This creates a simple procedure with which the joint is sealed in such a way that even when the mortar shrinks or putty practically does not enter this liquid metal.

Further advantageous embodiments of the invention result itself from the subclaims and the following description of an embodiment.

The figure shows a melt vessel approached to a mold in partial section.

A mold 1 carries as a tubular, rotationally symmetrical, refractory channel 2 a nozzle made of inductively connectable Material. The channel 2 has a conical outer surface 3 and an end face 4 on the inlet side.

In a wall 5 of a metallurgical melt vessel 6 (Tundish) is an inductor 7 installed in a perforated brick 8 is stored. In the perforated brick 8 is by means of a mortar layer 9 one of a rotationally symmetrical, refractory Molded outer lining 10 attached. Outer lining is this related to the channel 2. The outer surface 3 of the channel 2 and the outer lining 10 are conical to a To facilitate nesting. It's on the inside Melt vessel 6 lined with a wear layer 11, the also the outer lining 10 covered on the inlet side.

There is a joint between the outer lining 10 and the channel 2 12. The outer lining 10 forms an area 13 which the Encloses the outer surface 3 of the channel 2, and an area 14, which covers the end face 4 of the channel 2. Accordingly The joint 12 forms a zone 15 between the area 13 and the outer surface 3 and a zone 16 between the area 14 and the end face 4. The zone 16 is thus approximated radial and approximately angled axial direction and thus labyrinthine. The zone is out of the main area of activity of the inductor 7 moved.

In the area 14 of the outer lining covering the end face 4 10 there is an annular projection 17 which is in the main flow direction A the melt is directed. At the End face 4 of the channel 2 is an annular projection 18, which is directed against the main flow direction A, the projection 18 with respect to the passage cross section lies outside the projection 17. This makes the joint 12 in Zone 16 angled like a labyrinth, one of which Flow cross section of nearby labyrinth passage 16 ' Main flow direction A is opposite.

The liquid metal flows in the main flow direction during operation A from the melt vessel 6 into the mold 1. The Flow cross section D1 for the molten metal in area 14 of the outer lining 10 is about the same size as that in the main flow direction A subsequent flow cross section D2 of the Channel 2 close to the end face 4. In the figure is the Flow cross section D1 slightly larger than the flow cross section D2. The flow cross section D2 of channel 2 can expand towards the mold 1.

In the joint 12 can be a mortar and / or kit layer be provided, which additionally seal the joint 12 serves. Preferably, not only mortar or is in the joint 12 Putty provided, but in addition is in the joint 12 fireproof cord and / or a fireproof fabric tape, preferably arranged essentially from carbon, what is not shown in the figure.

The refractory cord and / or the refractory fabric tape can be spiral or helical on the outer surface 3 and if necessary, additionally wound onto the end face 4 of the channel 2 be. To take up and hold the cord and / or of the fabric tape on the outer surface 3 or the end surface 4 can improve on the outer surface 3 and / or on the 4 prefabricated grooves that are spiral or run helically, be formed. Instead, or in addition, the outer surface 3 and / or the end surface 4 also be roughened.

To the desired sealing of the joint 12 in a simple manner perform, before the melt vessel 6 to the mold 1 is driven on the exposed outer surface 3 of the channel 2 and possibly the end face 4 the cord and / or the fabric tape wound up. Then the outer surface 3 and / or in the outer lining attached to the melt vessel 6 10 introduced a mortar and / or putty bed. After that it will Melting vessel. 6 with the outer lining 10 via the channel 2 of the Mold 1 pushed. The area 14 of the outer lining 10 then covers the end face 4.

However, it is also possible to use outer lining and channel directly connect with each other when the two refractory parts due to their manufacture and their connection with tight Tolerances can be put together.

If in the following operation the melt from the melt vessel 6 in the main flow direction A through the flow cross-sections D1 and D2 flows into the mold 1, the inductor 7 is switched on, no significant amounts of melt occur in the joint 12, especially its zone 15. Because a Penetration of melt into zone 15 is due to the covering the end face 4 and the labyrinth shape there as well if necessary the mortar or kit layer and the cord or that Fabric tape prevented.

Claims (8)

Tubular refractory channel, especially refractory Nozzle, as a passage for liquid metals, in particular liquid steel, with the channel in a heat-insulating Outer lining can be used and the channel and the outer lining if necessary with a refractory mortar or kit layer are connectable, characterized in that the heat insulating Outer lining (10) the metal inlet end face (4) of the tubular channel (2) covered. Tubular refractory duct according to claim 1, characterized characterized in that the between the channel (2) and the External lining (10) existing joint (12) in the area of the end face (4) of the channel (2) at least simply approximated in radial and approximately axial direction of the channel (2) is angled like a labyrinth. Tubular refractory duct according to claim 1 or 2, characterized in that it has a refractory cord and / or a fire-resistant fabric tape is wrapped. Tubular refractory duct according to claim 3 with a conical outer configuration, characterized in that the refractory cord and / or the refractory fabric spiral are wound up. Tubular refractory duct according to claim 3 or 4, characterized in that the refractory cord and / or the refractory fabric tape consists essentially of carbon. Tubular refractory duct according to one of the preceding Claims 3 to 5, characterized in that the Channel (2) for receiving the refractory cord and / or the fireproof fabric tape grooves, possibly spiral grooves, and / or has a roughened surface. Tubular refractory duct according to one of the preceding Claims 3 to 6, characterized in that the refractory cord and / or the refractory fabric tape up extends over the end face (4) of the channel (2). Procedure for sealing fingers between two into each other arranged refractory parts, especially rotationally symmetrical Parts, if necessary, with a refractory Mortar or putty can be bonded against the ingress of liquid metal, especially liquid steel, thereby characterized in that on the outer surface (3) one in one first fireproof part (outer lining 10) insertable second refractory part (channel 2) a circumferential refractory Cord and / or a circumferential fireproof fabric tape is applied and then the two parts, optionally in a mortar and / or placed between them Putty bed to be pushed over one another, such that the first refractory part (outer lining 10) as a heat insulating Outer lining (3) metal end face (4) of the second refractory part (channel 2) covered.

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