EP2979778A1 - Fermeture à tiroir pour cuve de coulée métallurgique, en particulier pour poche de coulée - Google Patents

Fermeture à tiroir pour cuve de coulée métallurgique, en particulier pour poche de coulée Download PDF

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Publication number
EP2979778A1
EP2979778A1 EP15186206.7A EP15186206A EP2979778A1 EP 2979778 A1 EP2979778 A1 EP 2979778A1 EP 15186206 A EP15186206 A EP 15186206A EP 2979778 A1 EP2979778 A1 EP 2979778A1
Authority
EP
European Patent Office
Prior art keywords
slide
plate
frame
housing
slide plate
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP15186206.7A
Other languages
German (de)
English (en)
Inventor
Thomas Schmitz
Wolfgang Schönbrenner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Knollinger Flo-Tec GmbH
Original Assignee
Knollinger Flo-Tec GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Knollinger Flo-Tec GmbH filed Critical Knollinger Flo-Tec GmbH
Publication of EP2979778A1 publication Critical patent/EP2979778A1/fr
Withdrawn legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D41/00Casting melt-holding vessels, e.g. ladles, tundishes, cups or the like
    • B22D41/14Closures
    • B22D41/22Closures sliding-gate type, i.e. having a fixed plate and a movable plate in sliding contact with each other for selective registry of their openings
    • B22D41/42Features relating to gas injection
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D41/00Casting melt-holding vessels, e.g. ladles, tundishes, cups or the like
    • B22D41/08Casting melt-holding vessels, e.g. ladles, tundishes, cups or the like for bottom pouring
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D41/00Casting melt-holding vessels, e.g. ladles, tundishes, cups or the like
    • B22D41/14Closures
    • B22D41/22Closures sliding-gate type, i.e. having a fixed plate and a movable plate in sliding contact with each other for selective registry of their openings
    • B22D41/24Closures sliding-gate type, i.e. having a fixed plate and a movable plate in sliding contact with each other for selective registry of their openings characterised by a rectilinearly movable plate

Definitions

  • the invention relates to a slide closure for a metallurgical casting vessel, in particular ladle, with a slide plate displaceably mounted between a head plate and a pouring plate, according to the preamble of patent claim 1
  • Such a slide closure is well known. It is in this regard only on the example DE-B-26 52 593 or DE-A-36 16 115 directed.
  • these known slide gate closures it is not possible to prevent ambient air from being sucked into the pouring channel during pouring via the slide closure, in particular between the top plate and the slide plate, and mixed with the molten metal. The result is uncontrolled metallurgical reactions that can seriously affect the quality of the final product.
  • the present invention is therefore an object of the invention to provide a slide valve available, which is built much simpler compared to the prior art, and still be safely avoided that sucked in operation ambient air into the spout and the molten metal is added.
  • it is important to simplify the construction in terms of their handling when closing or opening the valve body significantly.
  • An essential aspect of the present invention is therefore that all plates of the slide closure, in a three-plate slide so all three plates are arranged within a if necessary openable slide housing and that the slide housing to the outside is substantially gas-tight lockable. In this way can be within the slide housing, ie in the immediate vicinity of the slide plate or the functional surfaces between the slide plate on the one hand and head and spout plate on the other hand produce either a negative pressure atmosphere or an inert gas overpressure atmosphere.
  • the slide plate has at least one passage opening whose inner diameter preferably corresponds to the inner diameter of the corresponding through holes of the head and spout plate. In principle, it is also conceivable that the inner diameter of the slide plate deviates from the inner diameters of the head and / or discharge plate.
  • a second passage opening in the slide plate is conceivable, whose diameter is smaller than the aforementioned diameter, to a defined reduced spout of molten metal from the casting vessel, eg a ladle, to ensure.
  • the slide plate would then in this case not only one, but two spaced-apart open positions.
  • the slide plate frame is formed a connection part for coupling to a complementary connection element of the slide plate drive, the latter protrudes into the interior of the slide housing to be automatically locked there when closing the slide housing with the connection part of the slide plate frame. So that is the slide plate with the slide valve housing always in operative connection with the slide plate drive.
  • Argon is preferably used as the inert gas.
  • the pressure either the negative pressure or alternatively the inert gas overpressure
  • adjustable within the valve body in particular is adjustable, preferably in response to the slide plate position between "fully open” and “completely closed".
  • inert gas pressure in the valve body were set too high, inert gas could pass excessively into the molten metal between the plates of the valve, to be entrained with it into a distributor trough. There is then the danger that inert gas bubbles rise through the slag and break up the slag layer or corresponding melt cover. Thus, the melt comes back directly in contact with ambient air, which leads to potentially adverse chemical reactions.
  • the pressure in the slide housing may be either underpressure or overpressure, depending on the slide plate position.
  • the pressure in the slide housing at full open position of the slide plate between this one hand and the head and / or spout plate on the other hand less ambient air or inert gas sucked than in half-open position.
  • half-open or partial open position arises at the bottom of the protruding into the spout opening portion of the slide plate high negative pressure. Accordingly, more “inert gas” is “consumed”. This increased “inert gas consumption” can be compensated by correspondingly increased inert gas supply into the valve housing.
  • this negative pressure in the slide housing should be reduced accordingly to avoid that on the underside of the protruding into the spout part of the slide plate too high a negative pressure is produced, which is harmful could affect the metal flow.
  • the side of the slide housing facing the pouring vessel comprises a mounting plate for the top plate, or this side is defined by the mounting plate, between this side or mounting plate and casting vessel preferably a circumferential seal, in particular sealing cord is arranged. This ensures that no ambient air can penetrate between the connection side of the valve housing on the one hand and the underside of the casting vessel or ladle on the other hand.
  • the slider housing by the mounting plate comprehensive side on the one hand and a pivotally mounted about a first axis mounted box-like frame on the other hand, wherein on the opposite side of the mounting plate, the spout plate is mounted.
  • a circumferential seal in particular sealing cord arranged. This seal is therefore assigned to the same freely open at the opening of the slide housing sides.
  • this construction which is extremely compact, all the plates of the three-plate slide are easily accessible and interchangeable if required.
  • a slide plate drive is still connected, and also with the interposition of a separate seal.
  • the slide plate frame is either manually or automatically locked to a separate swing frame when opening the slide plate and simultaneous decoupling of the slide plate frame including slide plate from the slide plate drive, or vice versa when closing the slide housing unlocked. This ensures that when the slide valve housing is closed, the slide plate frame together with the slide plate is freely back and forth, while with open slide housing the slide plate frame including slide plate securely held on the slide housing, via the separate swing frame.
  • the slide plate frame locking mechanism includes a locking pin slidably mounted on the swing frame and cooperating with a corresponding pin receiver in the slide plate frame.
  • a locking pin slidably mounted on the swing frame and cooperating with a corresponding pin receiver in the slide plate frame.
  • the locking pin engages in the pin receptacle. Conversely, it behaves when unlocking the slide plate frame including slide plate.
  • FIGS. 1 to 7 a preferred embodiment of an inventively designed slide closure is shown.
  • This slide closure should be assigned to a metallurgical casting vessel, in particular a ladle. It is located at the bottom of the metallurgical casting vessel, and although in association with a spout opening the same. It comprises a slide housing 1 which is mounted with a mounting plate 2 on the underside of the casting vessel, for example a ladle. Between the mounting plate 2 and the underside of the casting vessel, a circumferential sealing cord not shown here is arranged so that between the casting vessel and mounting plate 2 no outside air can be sucked to the spout. This spout is in Fig.
  • the slide plate 3 is reciprocally mounted between one of the mounting plate 2 associated top plate 5 and the spout 8 associated spout plate 6, between an open position according to the Figures 3 and 4 on the one hand and a closed position on the other.
  • the slide plate 3 is arranged within a slide plate frame 10.
  • the slide plate frame 10 is coupled to an outer drive 13. It is preferably a hydraulic drive with hydraulic cylinder and piston rod.
  • the free end of the piston rod, which in the Figures 3 and 5 Numeral 11 is coupled to a complementary terminal portion 12 of the gate plate frame when the gate housing is in the closed position, as shown in FIG Fig. 3 is shown.
  • Head plate, slide plate and spout plate each consist of wear-resistant refractory material. They are interchangeable if necessary.
  • the slider housing is corresponding Fig. 5 open.
  • the hydraulic drive 13 is connected via a so-called lantern 7 on the slide housing 1.
  • the connection is made with the interposition of a so-called lantern block 31.
  • a ring seal 33 is arranged between lantern block 31 and lantern 7, . It is preferably a kind of fabric bushing, which is biased by a sealing flange 34 in order to obtain the desired sealing effect (see Fig. 3 ).
  • Fig. 5 can be seen very well, the slide housing 1 is openable.
  • a box-like frame 14 is mounted on the mounting plate 2 pivotable about a first axis 16.
  • This box-like frame 14 is approximately cuboid and has four mutually perpendicular longitudinal sides and a lower bottom wall 17 in the assembled state of the slide housing.
  • Within this box-like frame are both the spout plate 6 and the slide plate 3 together with slide plate frame 10th positionable.
  • In the closed state of the slide housing are all three plates 3, 5, 6 within the same, as the Figures 3 and 4 very good.
  • the spout plate 3 may preferably be sprung in the direction of the slide plate, so that a sufficiently high density is ensured between the plates by design. As already mentioned, it is true that as little ambient air and / or inert gas as possible reaches the spout channel 4.
  • the head plate is in a conventional manner still an upper sleeve 18, and the spout plate 6 associated with a spout in the form of a spout 8.
  • a not shown here immersion tube may be connected.
  • the slide plate frame 10 together with the slide plate 3 is pivotally held on the box-like frame about a second, parallel to the first axis 16 extending axis 9, such that when closing the slide housing 1, the slide plate in the box-like frame 14 into contact with the mounted there Ausgussplatte. 6 , And then the box-like frame 14 including spout and slide plate to the mounting plate 2 zoom under the slide plate 3 to the mounted on the mounting plate 2 head plate 5 are pivotable.
  • the movement is reversed in a position as in Fig. 5 is shown. This is a particularly compact but easy to install construction. All plates of the three-plate slide are freely accessible when needed and can be exchanged or repaired in a simple manner with appropriate wear.
  • the slide plate frame 5 together with slide plate 3 is held back and forth within a separate pivot frame 32 and together with this when opening the slide housing in a position accordingly Fig. 5 from the box-like part 14 of the valve body 1 with simultaneous decoupling of the slide plate frame 10 together with slide plate 3 from the slide plate drive 13 out pivotally, namely about a second axis 9, which extends parallel to the first pivot axis 16.
  • the slide plate frame 5 together with slide plate 3 either manually (as in the embodiments according to the FIGS. 5 to 7 ) or automatically on the swing frame 32nd locked so that it does not fall out or slip out when opening the slide housing 1.
  • the locking mechanism for the slide plate frame 10 comprises a locking pin 19 displaceably mounted on the swing frame 32 relative to the slide plate frame, which is insertable into a pivot receptacle formed on the slide plate frame 10, particularly in the form of a receiving slot 20 'for locking the slide plate frame 10 on the pivot frame 32.
  • the locking pin 10 is coupled to an actuating pin 20.
  • This actuating pin is accessible from the rear side of the slide plate frame 10, ie, from the side facing away from the slide plate 3 and accordingly Fig. 7 in the direction of the double arrow 21 back and forth, namely from a locking position into a slide plate release position and vice versa.
  • a seal in particular sealing cord 22, which in the illustrated embodiment according to Fig. 5 on the box-like frame 14 facing side of the mounting plate 2 is arranged circumferentially, in such a way that it cooperates when closing the slide housing 1 with the circumferential end face of the box-like frame 14. It is then appropriate Fig. 3 Yet another circumferential seal 15 is provided around the spout 8 around. This seal and the circumferential seal 22, gland 33 and the seal between the mounting plate 2 and the bottom of the casting vessel cause a complete gas-tight seal of the interior of the valve body 1 relative to the outside environment.
  • connection 29 In the interior of the valve body 1 inert gas, in particular argon can be injected.
  • the inert gas pressure within the valve body is controllable as described above, preferably depending on the valve plate position.
  • the terminal 29 serves for connection to a vacuum source.
  • the regulation of the negative pressure or, alternatively, the inert gas overpressure within the valve body is preferably carried out by means of a regulation active between the interior of the valve body and its external environment, e.g. Pressure relief valve.
  • a so-called protective plate 23 is additionally arranged, in particular screwed (hexagon screw 25 with washer 24 according to Fig. 3 ). This serves to protect the valve body against contamination, but in particular excessive heat, for example, starting from the arranged below the slide housing distributor trough.
  • thermodynamic compression springs 28th (please refer Fig. 4 ) are effective.
  • thermodynamic compression springs conventional mechanical springs can be used if required.
  • first 16 and second 9 pivot axis should be mentioned that they are arranged on two opposite sides of the box-like frame 14.
  • Fig. 5 For a particularly compact construction is obtained, in particular in the open state of the valve body accordingly Fig. 5 remains compact.
  • the movement of the locking pin 19 in the associated receiving slot 20 'in and out of this according to the movement of the associated Actuating pin 20 is in Fig. 6 indicated by the double arrow 30.
  • the slide plate frame 10 together with slide plate 3 associated pivot frame which is pivotable about the second pivot axis 9 is in Fig. 5 designated by the reference numeral 32.
  • slide plate 3 together with associated slide plate frame 10 are held on the box-like frame 14 of the valve body 1 about the second pivot axis 9 pivotally.
  • a seal is used between the hopper on the mold and the spout or spout of the slide valve closure.
  • This is generally made of a flexible refractory material, preferably of refractory fibers od. Like. Material.
  • inert gas is introduced from the outside.
  • the interior, through which the steel stream extends, is kept free of oxygen.
  • the inert gas is passed through a pipe in the interior of the seal.
  • the condition is created in the region of the spout 8 that inert gas, with which the slide valve closure is flooded, can flow out into the region of the seal.
  • FIGS. 8 and 9 Based on FIGS. 8 and 9 an example of the flooding of the sealing chamber with inert gas through a specially designed sealing ring around the spout 8 of the slide closure is described in more detail. This is intended to ensure that sufficient inert gas can enter the mold between the steel flow and eg the feed hopper on a mold from the valve body.
  • a sealing flange 35 is arranged on the underside of the slide housing, specifically on the underside of the bottom wall 17 of the same, which extends around the spout 8 around, and the outside with a so-called.
  • Inertgas-, in particular argon nozzle 38 cooperates, as exemplified in Fig. 9 is shown.
  • the sealing flange 35 comprises two sealing rings 36, 37.
  • the radially inner sealing ring 36 is preferably designed as a stuffing seal.
  • the aforementioned inert gas nozzle 38 acts against this stuffing seal from the outside.
  • the inert gas nozzle 38 exerts a sufficiently large axial pressure on the annular stuffing seal 36, so that the gap between the spout 8 and the sealing flange 35 is sealed gas-tight.
  • the radially outer sealing ring 37 also prevents, in cooperation with the inert gas nozzle 38, a gas outlet to the outside, so that inert gas can only escape into the region between the inner and outer sealing ring out of the valve body.
  • An annular groove 39 on the side of the inert gas nozzle 38 facing the sealing flange 35 faces this annular region.
  • Through holes 44 are formed in the bottom of this annular groove and extend axially through the inert gas nozzle 38 and are approximately evenly distributed over the circumference of the annular groove. This ensures that inert gas can flow out of the valve housing through the bores 44 of the inert gas nozzle 38 into the region around the outlet opening of the spout 8.
  • the corresponding inert gas, in particular argon flow is in Fig. 8 indicated by the flow arrows 45.
  • the amount of inert gas exiting through the holes 44 can be adjusted, in addition to the pressure within the valve body and the inert gas volume introduced into the valve body per unit time.
  • the inert gas nozzle 38 is held on the underside of the sealing flange 35 by a bayonet lock.
  • the locking or unlocking takes place by means of two actuating levers 46 which are arranged on the body of the Inertgasdüse 38 extending diametrically outwardly, in particular integrally formed.
  • annular groove 39 of the Inertgasdüse 38 is limited by an inner annular ridge 47 and outer annular ridge 48.
  • these two ring lands are pressed axially against the two sealing rings 36, 37, which are placed within the sealing flange 35.
  • the outer sealing ring 37 is formed as a stuffing seal. This ensures that the area between inner and outer sealing ring 36, 37 on the one hand and annular groove 39 sealed to the outside is. Inert gas can therefore escape only through the annular groove 39 and the axial bores 44 formed therefrom out of the valve housing into the region around the spout 8.
  • the escaping steel is protected from oxygen.
  • FIG. 10 shown schematically.
  • the sealing flange 40 associated with a sealing ring 41 which is formed as a stuffing box.
  • the sealing ring 41 in the form of a stuffing box is biased axially more or less strongly by a clamping screw ring 49 assigned to the sealing flange 40. This makes it possible to adjust the degree of tightness of the stuffing box 41.
  • the clamping screw ring 49 can be screwed into an internal thread 50 provided on the outside of the sealing flange 40.
  • the contact pressure of the sealing ring 41 is effected by an annular web 51 which is formed on the sealing ring 41 facing side of the clamping screw ring 49.
  • this tube can also be supplied with inert gas from the spout.
  • the reference numeral 42 refers to a so-called. Alternating ring.
  • the reference numeral 43 is associated with a protective plate, which is arranged on the outside at a distance from the bottom wall and protects the slider housing from excessive heat.
  • the latter two components are preferably associated with all embodiments.
  • the spout 8 is firmly connected to the spout plate 6.
  • the change ring 42 serves as a guide when inserting the spout plate with spout in the slider.
  • the spout 8 is used separately from the spout plate 6 in the slide. In these cases, the change ring 42 serves to fix the spout 8.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Casting Support Devices, Ladles, And Melt Control Thereby (AREA)
EP15186206.7A 2011-06-27 2012-06-26 Fermeture à tiroir pour cuve de coulée métallurgique, en particulier pour poche de coulée Withdrawn EP2979778A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102011051346A DE102011051346A1 (de) 2011-06-27 2011-06-27 Schieberverschluß für ein metallurgisches Gießgefäß, insbesondere Gießpfanne
EP12729161.5A EP2723523B1 (fr) 2011-06-27 2012-06-26 Fermeture à tiroir pour cuve de coulée métallurgique, en particulier pour poche de coulée

Related Parent Applications (2)

Application Number Title Priority Date Filing Date
EP12729161.5A Division EP2723523B1 (fr) 2011-06-27 2012-06-26 Fermeture à tiroir pour cuve de coulée métallurgique, en particulier pour poche de coulée
EP12729161.5A Division-Into EP2723523B1 (fr) 2011-06-27 2012-06-26 Fermeture à tiroir pour cuve de coulée métallurgique, en particulier pour poche de coulée

Publications (1)

Publication Number Publication Date
EP2979778A1 true EP2979778A1 (fr) 2016-02-03

Family

ID=46331353

Family Applications (2)

Application Number Title Priority Date Filing Date
EP15186206.7A Withdrawn EP2979778A1 (fr) 2011-06-27 2012-06-26 Fermeture à tiroir pour cuve de coulée métallurgique, en particulier pour poche de coulée
EP12729161.5A Active EP2723523B1 (fr) 2011-06-27 2012-06-26 Fermeture à tiroir pour cuve de coulée métallurgique, en particulier pour poche de coulée

Family Applications After (1)

Application Number Title Priority Date Filing Date
EP12729161.5A Active EP2723523B1 (fr) 2011-06-27 2012-06-26 Fermeture à tiroir pour cuve de coulée métallurgique, en particulier pour poche de coulée

Country Status (5)

Country Link
EP (2) EP2979778A1 (fr)
DE (2) DE202011111055U1 (fr)
ES (1) ES2628617T3 (fr)
SI (1) SI2723523T1 (fr)
WO (1) WO2013000880A1 (fr)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP3587002A1 (fr) * 2018-06-26 2020-01-01 Refractory Intellectual Property GmbH & Co. KG Fermeture coulissante pour un récipient métallurgique, de préférence un récipient de distribution pour une installation de coulée continue
DE102020111695B3 (de) 2020-04-29 2021-07-15 Knöllinger FLO-TEC GmbH Schieberverschluss mit innenliegendem Dichtkörper und Verfahren zu dessen Montage
RU2798379C2 (ru) * 2018-06-26 2023-06-21 Рефрактори Интеллектуал Проперти ГмбХ энд Ко. КГ Шиберный затвор для металлургического контейнера, предпочтительно промежуточного ковша для системы непрерывного литья

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2652593B1 (de) 1976-11-19 1978-05-24 Zimmermann & Jansen Gmbh Schieberverschluss fuer eine Giesspfanne
JPS613653A (ja) 1984-06-15 1986-01-09 Kawasaki Steel Corp シ−ル機構を有するスライデイングノズル装置
DE3616115A1 (de) 1986-05-13 1987-11-19 Zimmermann & Jansen Gmbh Verfahren zum beherrschen des auslaufkanales eines giessgefaesses fuer metallische schmelzen und giesseinrichtung zur durchfuehrung des verfahrens
EP0446406A1 (fr) 1990-03-13 1991-09-18 Zimmermann & Jansen GmbH Obturateur coulissant pour un récipient métallurgique, en particulier une poche de coulée
JPH05138335A (ja) 1991-07-12 1993-06-01 Shinagawa Refract Co Ltd カートリツジ式スライドバルブ装置におけるシール機構及び/又はガス吹込又は真空吸引機構

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2652593B1 (de) 1976-11-19 1978-05-24 Zimmermann & Jansen Gmbh Schieberverschluss fuer eine Giesspfanne
JPS613653A (ja) 1984-06-15 1986-01-09 Kawasaki Steel Corp シ−ル機構を有するスライデイングノズル装置
DE3616115A1 (de) 1986-05-13 1987-11-19 Zimmermann & Jansen Gmbh Verfahren zum beherrschen des auslaufkanales eines giessgefaesses fuer metallische schmelzen und giesseinrichtung zur durchfuehrung des verfahrens
EP0446406A1 (fr) 1990-03-13 1991-09-18 Zimmermann & Jansen GmbH Obturateur coulissant pour un récipient métallurgique, en particulier une poche de coulée
DE4007993A1 (de) 1990-03-13 1991-09-19 Zimmermann & Jansen Gmbh Schieberverschluss fuer ein metallurgisches giessgefaess, insbesondere eine giesspfanne
JPH05138335A (ja) 1991-07-12 1993-06-01 Shinagawa Refract Co Ltd カートリツジ式スライドバルブ装置におけるシール機構及び/又はガス吹込又は真空吸引機構

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP3587002A1 (fr) * 2018-06-26 2020-01-01 Refractory Intellectual Property GmbH & Co. KG Fermeture coulissante pour un récipient métallurgique, de préférence un récipient de distribution pour une installation de coulée continue
WO2020001825A1 (fr) * 2018-06-26 2020-01-02 Refractory Intellectual Property Gmbh & Co. Kg Obturateur à tiroir pour un récipient métallurgique, de préférence un récipient distributeur pour une installation de coulée continue
US11654480B2 (en) 2018-06-26 2023-05-23 Refractory Intellectual Property Gmbh & Co. Kg Sliding closure for a metallurgical vessel, preferably a distributor vessel for a continuous casting facility
RU2798379C2 (ru) * 2018-06-26 2023-06-21 Рефрактори Интеллектуал Проперти ГмбХ энд Ко. КГ Шиберный затвор для металлургического контейнера, предпочтительно промежуточного ковша для системы непрерывного литья
DE102020111695B3 (de) 2020-04-29 2021-07-15 Knöllinger FLO-TEC GmbH Schieberverschluss mit innenliegendem Dichtkörper und Verfahren zu dessen Montage

Also Published As

Publication number Publication date
SI2723523T1 (sl) 2017-07-31
EP2723523A1 (fr) 2014-04-30
DE202011111055U1 (de) 2018-12-12
ES2628617T3 (es) 2017-08-03
DE102011051346A1 (de) 2012-12-27
EP2723523B1 (fr) 2017-04-05
WO2013000880A1 (fr) 2013-01-03

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