SLIDING CLOSURE FOR A METALLURGICAL CONTAINER

Information

  • Patent Application
  • 20120273532
  • Publication Number
    20120273532
  • Date Filed
    December 20, 2010
    14 years ago
  • Date Published
    November 01, 2012
    12 years ago
Abstract
The invention relates to a sliding closure (1) for a metallurgical container, comprising two fireproof closing plates (3; 5), of which one is arranged in a slide unit (6) and is used to open and close a spout opening (10). The other closing plate (3) is arranged in a metal housing (2) that can be fastened to the container. Said stationary housing (2) and the slide unit (6) also accommodate an upper fireproof inlet sleeve (4) on the container side and a lower fireproof spout sleeve (8). In the housing (2) and in the slide unit (6), at least one additional inner part (2a, 2a′, 7a) is arranged in each case, each additional inner part enclosing the spout sleeve (8) or the inlet sleeve (4). Thus, thermal stresses in the slide unit or in the housing can be reduced and the risk of cracks forming can be significantly reduced.
Description

The invention relates to a sliding closure for a metallurgical container according to the preamble to claim 1.


Sliding closures of this type are known in various configurations. Publication EP 1 119 428 discloses, for example, a sliding closure comprising two fireproof closing plates with a metallic housing that can be fastened to the container and which accommodates the upper closing plate and a fireproof inlet sleeve on the container side. The lower closing or slide plate serving to open and close a spout opening is arranged in a metallic slide unit which additionally accommodates a fireproof spout sleeve adjoining the slide plate.


It is well known that the fireproof parts of the sliding closure, in particular the two closing plates, but also the inlet sleeve on the container side and the spout sleeve adjoining the slide plate such as to form a seal are subjected to a high degree of wear and tear, and so have to be changed regularly.


However, the high temperatures occurring during casting also subject the housing accommodating the inlet sleeve and the upper closing plate as well as the slide unit containing the slide plate and the spout sleeve to a high degree of stress, in particular in the region lying close to the flow-through opening and enclosing the spout sleeve and the inlet sleeve, where the highest temperatures prevail and so the greatest stresses occur. In addition, the sliding closure experiences a high degree of heating from below, and so in particular this slide unit accommodating the spout sleeve is subjected to an extremely high degree of thermal stress.


The same problem also arises with sliding closures which comprise a slide plate that can be displaced between two stationary closing plates (see e.g. EP 0 891 829 A1) in which the housing that can be fastened to the container also accommodates the inlet sleeve as well as the spout sleeve and the casting pipe in addition to the two stationary closing plates.


The object underlying the present invention is to provide a sliding closure of the type specified at the start which better withstands the high temperatures occurring during casting.


According to the invention the object is achieved by a sliding closure according to the features of claim 1.


Further preferred configurations of the sliding closure according to the invention form the subject matter of the dependent claims.


Since according to the invention the housing that can be fastened to the container and/or the slide unit is provided with an inner part enclosing the spout sleeve and the inlet sleeve and which is detachably connected to the other part of the housing or the slide unit and is thermally expandable with respect to the latter, the stresses in the slide unit or in the housing are dissipated at the points where the highest temperatures prevail, and the risk of cracks occurring is considerably reduced.


In sliding closures equipped with two or more closing plates, it is in particular the slide unit which is additionally subjected to a high degree of heating from below and can be effectively protected by the two-part configuration according to the invention.


However, the invention can also be used in sliding closures which comprise two stationary closing plates and a slide plate that can be displaced between the latter. Here it is the housing that can be fastened to the container that accommodates the spout sleeve (or a casting pipe) in its lower region and is subjected to particularly strong heating from below. According to the invention this housing can be formed from two parts, at least in the region enclosing the spout sleeve, and have a thermally expandable inner part.





In the following the invention is described in more detail by means of the drawings. These show as follows:



FIG. 1 is a longitudinal section of an exemplary embodiment of the sliding closure according to the invention;



FIG. 2 is a perspective exploded view of part of the sliding closure according to FIG. 1, and



FIG. 3 is part of the sliding closure according to FIG. 1 in cross-section along the axis of the flow-through opening.






FIG. 1 shows a sliding closure 1 for a metallurgical container which can be, for example, a ladle for molten steel used in a continuous casting plant. The container itself can not be seen from the drawing. The sliding closure 1 has a metallic housing 2 that can be fastened to a container in which an upper closing plate 3 made of a fireproof material is held, pressed against an inlet sleeve 4 on the container side that is also fireproof, which is introduced into a perforated brick of the container (not shown).


A further lower closing plate 5—a so-called slide plate—is held in a longitudinally moveable metallic slide unit 6 of the latter and in a way known in its own right, for example from EP 1 119 428, and so not described in any more detail, is pressed against the upper closing plate 3. Furthermore, a fireproof spout sleeve 8 adjoining the slide plate 5 is arranged in the slide unit 6 and is pressed against the slide plate 5 by means of a bracing component 9. By displacing the slide unit 6 and the slide plate 5 inserted into the latter from the open position shown in FIG. 1 into a restricting or closed position, the spout opening 10 defined by the inlet sleeve 4 and the upper closing plate 3 with its through hole 3a can be partially or totally closed. In FIG. 1 the connection 11 of the slide unit 6 to a linear drive bringing about the displacement is indicated.


The two closing plates 3, 5 are centred in the respective housing by means of centring components 13 in a way known in its own right and not described in any further detail.


According to the invention the slide unit 6 accommodating the slide plate 5 and the spout sleeve 8 is provided with an inner part 7a enclosing the spout sleeve 8 and which is detachably connected to the other part 7b of the slide unit 6 and is thermally expandable with respect to the latter.


In the exemplary embodiment shown the inner part 7a, which can also be seen in FIG. 2, has two diametrically opposing flange parts 17, 18, with which it can be introduced into corresponding grooves 19 of the rest of the slide unit 7b and then can be screwed to the latter. For this purpose fitted shoulder screws 20 and for the latter a fitted opening 21 in the one flange part 17 and a slot hole 22 in the other flange part 18 are preferably provided. Whereas positioning is achieved by means of the one fitted shoulder screw 20 and the fitted opening 21 of the inner part, which is connected, in the manner of a bayonet, in its lower region 27 to the aforementioned bracing component 9 for bracing the spout sleeve 8 with the closing plate 5 lying over it, the slot hole 22 allows thermal expansion of the inner part 7a transversely to axis A of the spout opening 10. Between the inner part engaging on the bayonet ring 9 from the outside and the spout sleeve 8 there is a radial air gap 28 which forms a type of temperature barrier between the spout sleeve 8 and the two-part slide unit 6.


The fitted shoulder screws 20 screwed into the slide unit 6 are advantageously arranged in a longitudinal centre plane of the sliding closure. Preferably, the flange part 22 of the inner part, which upon displacing the slide unit 6 into the closed position lies closer to axis A of the spout opening, is provided with the slot hole 22 for the fitted shoulder screw 20, and so, for example in a restricting position of the sliding closure, is subjected to the higher temperature.


In the exemplary embodiment shown in FIG. 1 the housing 2 that can be fastened to the container is also formed in two parts and is provided with a preferably annular inner part 2a enclosing the inlet sleeve 4. This inner part 2a serving as a wearing ring is detachably connected to the rest of the housing 2b by means of a number of axially directed fastening bolts 30 distributed around the circumference. The inner part 2a has a conical upwardly tapering inner surface 31 which lies on a conical upwardly tapering outer platform surface 32 of the inlet sleeve 4. Cylindrical inner surfaces 33, 34 adjoin the conical inner surface 31, there being a radial air gap 35 between these cylindrical inner surfaces 33, 34 and the outer circumference of the inlet sleeve 4.


Since the housing 2 that can be fastened to the container, above all, however, the housing frame 7 of the slide unit 6, is formed in two parts, and is provided with an inner part 2a; 7 enclosing the spout sleeve 8 and the inlet sleeve 4, with which air gaps are formed and thermal expansion is made possible, at those points where the highest temperatures prevail the stresses within the housing frame 7 and within the housing 2 are dissipated, and the risk of cracks occurring is considerably reduced. In sliding closures equipped with two closing plates it is the slide unit 6 which is additionally subjected to strong heating from below and can be effectively protected by the two-part configuration according to the invention.


According to FIG. 3 on the one hand this upper inner part 2a in the form of a ring and centring the inlet sleeve 4 and on the other hand an inner part 2a′ contained in the housing 2 and partially surrounding the inlet sleeve 4 are provided. This inner part 2a′ is formed in two parts and is advantageously arranged a distance away from the inlet sleeve 4.


The idea of the invention can also be applied, however, to sliding closures which comprise two stationary closing plates and a slide plate displaceable between the latter. Here it is the housing that can be fastened to the container which in its lower region accommodates the spout sleeve (or a casting pipe) and is subjected to particularly strong heating from below. According to the invention this housing can be formed in at least two parts in the region enclosing the spout sleeve and have a thermally expandable inner part. Needless to say this housing could however also be equipped with a further inner part in the region of the inlet sleeve.


Grey cast iron or spheroidal cast iron is particularly suitable as a housing material. The inner parts 7a, 2a and the other housing parts 7b, 2b can also be made of different materials here. The fastening means such as e.g. the fitted shoulder screws 20 are also made of the most temperature-resistant material possible.

Claims
  • 1. A sliding closure for a metallurgical container comprising at least two fireproof closing plates (3; 5), of which one is arranged in a metallic slide unit (6) and is used to open and close a spout opening (10), and the at least one further closing plate (3) is arranged in a metallic housing (2) that can be fastened to the container, this at least one stationary housing (2) and/or the slide unit (6) additionally accommodating an upper fireproof inlet sleeve (4) on the container side and/or a lower fireproof spout sleeve (8), characterised in that in the housing (2) and/or in the slide unit (6) at least one additional inner part (2a, 2a′; 7a) is arranged which respectively comprises the spout sleeve (8) or the inlet sleeve (4).
  • 2. The sliding closure according to claim 1, characterised in that the inner part (2a; 7a) is annular in form, is arranged coaxially to the spout or inlet sleeve (8 and 4) and is detachably connected by a number of axially directed fastening means (20; 30) to the other part (2b; 7b) of the housing (2) or the slide unit (6).
  • 3. The sliding closure according to claim 2, characterised in that the inner part (7a) enclosing the spout sleeve (8) and expandable in at least one direction has two diametrically opposed flange parts (17, 18) with which it can be introduced into corresponding grooves (19) of the rest of the slide unit and which are provided with openings (21, 22) for the fastening means.
  • 4. The sliding closure according to claim 3, characterised in that the fastening means respectively comprise a fitted shoulder screw (20), the one flange part (17) having a fitted opening (21) and the other having a slot hole (22) for passing through the respective fitted shoulder screw (20).
  • 5. The sliding closure according to claim 4, characterised in that the fitted shoulder screws (20) screwed into this slide unit (6) are arranged in a longitudinal centre plane of the sliding closure.
  • 6. The sliding closure according to claim 5, characterised in that the flange part (18) of the inner part (7a) which lies closer to the axis (A) of the spout opening (10) upon displacing the slide unit (6) is provided with the slot hole (22) for the fitted shoulder screw (20).
  • 7. The sliding closure according to claim 3, characterised in that the inner part (7a) is connected, in the manner of a bayonet, to a bracing component (9) for bracing the spout sleeve (8) to the opposing closing plate (5).
  • 8. The sliding closure according to claim 7, characterised in that there is a radial air gap (28) between the inner part (7a) engaging from the outside on the bracing component (9) and the spout sleeve (8).
  • 9. The sliding closure according to claim 1, characterised in that the inner part (2a′) contained in the housing (2) and surrounding the inlet sleeve (4) is formed in a number of parts.
  • 10. The sliding closure according to claim 2, characterised in that the inner part (2a) of the housing (2) that can be fastened to the container enclosing the inlet sleeve (4) and arranged above the inner part (2a′) has a conical, upwardly tapering inner surface (31) which lies on a conical, upwardly tapering outer platform surface (32) of the inlet sleeve (4).
  • 11. The sliding closure according to claim 10, characterised in that the inner part (2a) has cylindrical inner surfaces (33, 34) adjoining the conical inner surface (31), there being a radial air gap (35) between these cylindrical inner surfaces (33, 34) and the outer circumference of the inlet sleeve (4).
  • 12. The sliding closure according to claim 4, wherein the inner part is connected, in the manner of a bayonet, to a bracing component for bracing the spout sleeve to the opposing closing plate.
  • 13. The sliding closure according to claim 12, wherein there is a radial air gap between the inner part engaging from the outside on the bracing component and the spout sleeve.
  • 14. The sliding closure according to claim 5, wherein the inner part is connected, in the manner of a bayonet, to a bracing component for bracing the spout sleeve to the opposing closing plate.
  • 15. The sliding closure according to claim 14, wherein there is a radial air gap between the inner part engaging from the outside on the bracing component and the spout sleeve.
  • 16. The sliding closure according to claim 6, wherein the inner part is connected, in the manner of a bayonet, to a bracing component for bracing the spout sleeve to the opposing closing plate.
  • 17. The sliding closure according to claim 16, wherein there is a radial air gap between the inner part engaging from the outside on the bracing component and the spout sleeve.
Priority Claims (1)
Number Date Country Kind
02016/09 Dec 2009 CH national
PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/EP10/07790 12/20/2010 WO 00 6/28/2012