The invention relates to a device and to a method for sensing a conveying rate at which liquid material is filled into a metallurgical target vessel (6) from a pivotable starting vessel (4). For this purpose, means for determining an amount of liquid material with which the initial vessel (4) has been filled and means for sensing an amount of the liquid material which is discharged toward the target vessel (6) or filled into the target vessel (6) by pivoting of the starting vessel (4) are provided.

The invention relates to a device and to a method for sensing a conveying rate at which liquid material is filled into a metallurgical target vessel (6) from a pivotable starting vessel (4). For this purpose, means for determining an amount of liquid material with which the initial vessel (4) has been filled and means for sensing an amount of the liquid material which is discharged toward the target vessel (6) or filled into the target vessel (6) by pivoting of the starting vessel (4) are provided.

A carrier for supporting a metallurgical vessel during a cleaning process of the vessel includes a base, a pallet, and a cradle. The base has a longitudinal axis along a length of the base. The pallet is coupled to the base between (i) a first position where a longitudinal axis of the pallet is at a first angle relative to the longitudinal axis of the base, and (ii) a second position where the longitudinal axis of the pallet is at a second angle relative to the longitudinal axis of the base, the second angle greater than the first angle. The cradle is disposed at the pallet and supports the vessel when positioned at the carrier for the cleaning process. Pivoting the pallet between the first position and the second position adjusts an angle of the longitudinal axis of the vessel relative to the longitudinal axis of the base.

A carrier for supporting a metallurgical vessel during a cleaning process of the vessel includes a base, a pallet, and a cradle. The base has a longitudinal axis along a length of the base. The pallet is coupled to the base between (i) a first position where a longitudinal axis of the pallet is at a first angle relative to the longitudinal axis of the base, and (ii) a second position where the longitudinal axis of the pallet is at a second angle relative to the longitudinal axis of the base, the second angle greater than the first angle. The cradle is disposed at the pallet and supports the vessel when positioned at the carrier for the cleaning process. Pivoting the pallet between the first position and the second position adjusts an angle of the longitudinal axis of the vessel relative to the longitudinal axis of the base.

The invention relates to the subject area of metallurgical systems, in particular a metallurgical vessel which is fixed on a support ring. The object of the invention is to provide a metallurgical vessel having a support ring and a method for fixing and releasing, which prevents constraint forces. The tiltable metallurgical vessel having a round cross-section is at least partially surrounded by a support ring. The support ring is at a distance from the metallurgical vessel in the radial direction. The metallurgical vessel has at least three brackets, each having a respective pin. The support ring has at least three receiving openings which receive the pins. These receiving openings permit a shifting of the pin in the radial direction. The pins are secured against falling out of the receiving opening and the bracket by at least three locking devices floatingly mounted and arranged inside the support ring.

The invention relates to the subject area of metallurgical systems, in particular a metallurgical vessel which is fixed on a support ring. The object of the invention is to provide a metallurgical vessel having a support ring and a method for fixing and releasing, which prevents constraint forces. The tiltable metallurgical vessel having a round cross-section is at least partially surrounded by a support ring. The support ring is at a distance from the metallurgical vessel in the radial direction. The metallurgical vessel has at least three brackets, each having a respective pin. The support ring has at least three receiving openings which receive the pins. These receiving openings permit a shifting of the pin in the radial direction. The pins are secured against falling out of the receiving opening and the bracket by at least three locking devices floatingly mounted and arranged inside the support ring.

The invention relates to a device and to a method for sensing a conveying rate at which liquid material is filled into a metallurgical target vessel (6) from a pivotable starting vessel (4). For this purpose, means for determining an amount of liquid material with which the initial vessel (4) has been filled and means for sensing an amount of the liquid material which is discharged toward the target vessel (6) or filled into the target vessel (6) by pivoting of the starting vessel (4) are provided.

The invention relates to a device and to a method for sensing a conveying rate at which liquid material is filled into a metallurgical target vessel (6) from a pivotable starting vessel (4). For this purpose, means for determining an amount of liquid material with which the initial vessel (4) has been filled and means for sensing an amount of the liquid material which is discharged toward the target vessel (6) or filled into the target vessel (6) by pivoting of the starting vessel (4) are provided.

A large rolling bearing assembly includes a rolling bearing and at least one displacement sensor module. The rolling bearing includes an inner ring, an outer ring, and a plurality of rolling elements between the inner ring and the outer ring, the inner ring is supported on a shaft, the outer ring is mounted in a housing, and the at least one displacement sensor module is configured to measure a radial position of the shaft in order to detect wear of the rolling bearing.

A tilting converter comprising a container (2), defining a first longitudinal axis X, having a bottom (2); a support ring (3), coaxial to the container (2) and distanced from said container, provided with two diametrically opposite supporting pins (6), defining a second axis Y orthogonal to the first axis X, adapted to allow a rotation of the converter about said second axis Y; a suspension system, connecting said container (2) to said support ring (3), comprising groups (12) of first suspension devices (7), said groups (12) being arranged substantially equidistant to each other along a cylindrical side surface coaxial to the first axis X, in a position between the support ring (3) and the bottom (2); each of said first suspension devices (7) being provided with a plurality of longitudinal elastic elements, each longitudinal elastic element being arranged alongside the next so as to define a laying plane, and a gap (15, 15) is provided between one longitudinal elastic element and the next.