RU93396U1 - TILTING CONVERTER - Google Patents

Abstract

ESSAY

The utility model relates to the suspension of a new type of converter. The support of the converter housing (1) is carried out in the support ring (2) through a plurality of connecting elements (9), which determine the position of the converter housing in the support ring. At the same time, one number of connecting elements (9) is formed by plate packets (10), which are distributed with a distribution on the lower side of the support ring (2) and are fixed with their end sections (10a, 10b) on the support ring (2) and on the housing (1) converter. A preferred new converter suspension is formed due to the fact that in addition a different number of connecting elements (9) is formed by pendulum rods (11), which are pivotally connected at one end to the support ring (2) and the other end to the converter housing (1).

Description

2420-161975EN / 22

TILTING CONVERTER

The invention relates to a tilting converter, comprising a support ring surrounding the converter body at a distance, which has two diametrically opposed support pins, the converter housing being supported on the support ring by a plurality of connecting elements, wherein a number of connecting elements are formed by plate packets which are arranged with a distribution on the lower side of the support ring and are mounted on the support ring with their opposite end portions and on the converter housing.

Converters are tilting metallurgical cases in which liquid metals and metal alloys are created and processed. These converter housings are exposed to high thermal loads during operation, which lead to significant thermal expansions and deformations. Therefore, a support ring surrounds the converter housing at a predetermined distance. In conventional converter housings, in addition to the thermal load in the connecting elements, additional high loads arise due to gravity, and these loads vary depending on the position of the converter housing. Therefore, the connecting elements must be positioned so that in no operating position of the converter housing overloads occur in the individual connecting elements. To meet these requirements, the prior art already known a number of connecting the housing of the Converter with the support ring of the connecting elements in various embodiments.

A known embodiment of the converter suspension in the support ring comprises a plurality of plate elements which are distributed with a distribution on the lower side of the support ring and connect the converter housing to the support ring. This type of suspension is already known from DE 19 03 685 B2 and EP 1 061 138 B1. In addition, it is known from DE 19 03 685 B2 that on the upper side of the support ring, circumferential supports of the converter housing are installed between the supports on the support ring in a circumferential direction without a gap. This ensures reliable support of the converter housing in an inclined position. Although this solution provides the ability to shift the circumferential supports in the radial direction, however, deviations from the exactly round shape of the converter housing, respectively, the compression of the circumferential supports leads to forces that can lead to the formation of cracks in the supports. From EP 1 061 138 B1, an equally acting radially displaceable housing suspension is known, which is formed by the guide walls protruding on the upper belt of the support ring and the guide part guided between them without a gap.

A converter suspension is known from DE 29 31 671 A1, which, although it implements the principle of operation of the aforementioned plate suspension, but in which other structural designs of the connecting links are used. They are formed either by a triangular lever or threaded fingers made with the possibility of adjusting the distance, which are pivotally connected with the possibility of rotation with the support ring and the converter housing. Since there are many connecting links with a circumferential distribution both on the lower side and on the upper side of the support ring, when replacing the converter, increased installation costs arise, which is additionally hampered by contamination and accretion due to the deposition of slag and steel on the upper side support ring connecting links.

A converter suspension is known from DE 27 39 540 A1, which is formed from a system of triangular levers and pendulum rods, which are distributed on the upper side and on the lower side of the support ring and pivotally connect the support ring to the converter housing. At the same time, the connecting links are arranged so that both in the vertical position of the purge of the converter and in different positions of the tilt, a more uniform load distribution and support of the converter are possible. In one modification of this known embodiment of DE 43 27 640 A1, it is known that all the connecting links, preferably 6 or 7, are in the form of pendulum rods and their location in the sheltered zone on the underside of the support ring. This embodiment represents, due to the statically defined suspension of the converter housing in the support ring, the currently best solution for suspension of the converter.

A converter suspension is known from DE 33 41 824 A1, in which the converter housing is supported in suspension by its support pins on hollow supports mounted in a movable position in the support frame. Prestressed movable traction elements that are parallel to the middle axis of the converter connect the hollow supports to the support frame. Oriented to it perpendicular to the traction elements of the transverse mounting provide support for the converter in a lying position and perceive tensile forces. In all tilt positions between the vertical position of the converter and the lying position, both the traction elements and the traction elements of the transverse mounting are subjected to undesirable bending forces.

The purpose of the utility model is to eliminate the above drawbacks and difficulties, and the utility model is based on the task of creating an inclined converter of the type indicated at the beginning, which combines the advantages of the converter with the known radially flexible plate suspension with the advantages of the suspension known from VAI-CON Link suspension with pendulum rods .

This problem is solved according to the utility model in that in addition to the connecting elements formed by the plate packets, a different number of connecting elements are formed from pendulum rods, which are pivotally connected at one end to the support ring and at the other end to the converter housing.

Each individual plate package contains at least two plates located at a distance from each other, which, when the converter case is vertically located, are rigidly fixed on the support consoles on the underside of the support ring and on the converter case. The location and orientation of the plate packets is carried out on the generatrix lines of the imaginary lateral surface of the cone, the vertical axis of which corresponds to the axis of the converter, and its generators converge downward. This arrangement provides radial mobility of the converter in the support ring. Additional pendulum rods perceive radial forces arising during tilting and tilting, and provide support for the converter housing on the support ring. In this case, the pendulum rods can be located on the upper side or the lower side or on both sides of the support ring. Another advantage of the combination of plate suspension and pendulum rod suspension is that the pendulum rods have to absorb less force than the comparable converter suspension, which is formed exclusively of pendulum rods.

These advantages are manifested, in particular, when the pendulum rods are located in the area of each support pin in a plane approximately parallel to the support ring and at a right angle to the axis of inclination of the converter housing on the upper side or on the lower side of the support ring. Depending on the direction of inclination, tensile forces or compression forces are introduced into the pendulum rods.

According to one particular embodiment, the pendulum rods are fixed in zones on the support ring and on the converter housing, which in a vertical projection in the direction of the axis of the converter form a free space between directly adjacent plate packets.

To provide the greatest possible protection against accretion on the connecting elements, the pendulum rods are located on the lower side of the support ring between directly adjacent plate packets.

Preferably, the two pendulum rods are pivotally connected on one side to the support ring and, on the other hand, to the converter housing.

To ensure the spatial mobility of the pendulum rods and to exclude the input of bending forces, the pendulum rods are pivotally mounted with spherical bearings on the support ring and on the converter housing.

Other advantages and features of this utility model follow from the description below of non-restrictive examples of execution with reference to the accompanying drawings, which depict:

figa - Converter housing in a vertical operating position with the suspension of the converter, according to the first embodiment of the utility model;

fig.1b - section of the Converter housing along the line aa in figa;

figa - Converter housing in a vertical operating position with a suspension of the Converter, according to the second embodiment of the utility model;

fig.2b - section of the Converter housing along the line aa in figa;

figure 3 is a section of the Converter housing along the line bb in Fig.1b and 1b;

figure 4 - suspension with pendulum rods in the view along arrow C in figure 1b.

On figa, 1b, 2a, 2b shows the housing 1 of the Converter, which is surrounded by a closed support ring 2 with a box-shaped cross-section, while the support ring is located at a distance from the housing of the Converter. The support ring 2 with the help of two diametrically located and located on the same line of the support pins 3, 4 is supported with the possibility of tilting on the thrust bearings 5, 6. The vertical axis of the converter with the vertically standing housing 1 of the converter is indicated by 7, and the horizontal axis of inclination is indicated 8. At least one of the support pins is connected to a tilt drive not shown.

For fastening the converter housing 1 to the support ring 2, connecting elements 9 are provided, which, depending on their position on the converter housing 1 and on the support ring 2, are formed either by plate packets 10 or pendulum rods 11.

Plate packages 10 are positioned with a vertically standing converter housing on the lower side of the support ring 2 and are arranged with a distribution around the circumference of the converter housing 1. The support ring 1 and the converter housing 1 are provided with fixing consoles 12, 13 on which plate packets 10 are rigidly fixed with their end sections 10a, 10b, preferably by means of detachable screw connections (see FIG. 3). Each plate package 10 is made of two, as shown in the figures, or more plates 14 with spacer metal sheets 15 located between them and acts as a system of bending springs.

Two pendulum rods 11 are located above the support ring 2 (see figa) or under the support ring 2 (see figa) in the area of the support pins 3, 4 in a plane formed approximately parallel to the support ring 2 and approximately at right angles to the formed by the support pins 3, 4 axis 8 of the inclination of the Converter housing 1 on the upper side or on the lower side of the support ring 2. The pendulum rods 11 are pivotally supported in the mounting consoles 16, 17 of the support ring 2 and the converter housing 1 on the spherical supports 18 (see figure 4) and perceive when tilting the converter, an exception tion tensile force or compression. The pendulum rods 11 and the corresponding mounting brackets 16, 17 are in a vertical projection in the direction of the axis 7 of the converter in the sector zone D between directly adjacent plate packets 10 (see fig.2b).

In the vertical position of the converter, the gravity of the converter housing and its contents are perceived with approximately uniform distribution exclusively by the packages of plates of the plate suspension and transmitted to the support frame. In various tilt positions (loading position, unloading position), gravity in various proportions is perceived by the plate-plate suspension plate packs and pendulum suspension rods with pendulum rods and transmitted to the support frame.

Claims (6)

1. A tilting converter, comprising a support ring (2) surrounding the housing (1) of the converter at a distance, which has two diametrically opposed support pins (3, 4), while the housing (1) of the converter is supported on the support ring (2) with a plurality of connecting elements (9), while a certain number of connecting elements (9) are formed by plate packets (10), which are arranged with a distribution on the lower side of the support ring (2) and their opposite end sections (10a, 10b) are fixed on the support ring ( 2) and on the converter case (1), characterized in that a different number of connecting elements (9) is formed by pendulum rods (11), which are pivotally connected at one end to the support ring (2), and at the other end to the converter case (1). 2. The converter according to claim 1, characterized in that the pendulum rods (11) are located in the area of each support journal (3, 4) in a plane formed approximately parallel to the support ring (2) and approximately at right angles to the axis formed by the support axles (3, 4) the axis (8) of the inclination of the converter housing (1) on the upper side or on the lower side of the support ring (2). 3. A converter according to any one of claims 1 or 2, characterized in that the pendulum rods (11) are fixed in sector areas (D) on the support ring (2) and on the converter housing (1), which are in vertical projection in the direction of the axis ( 7) converters form a free space between directly adjacent plate packets (10). 4. The converter according to claim 3, characterized in that the pendulum rods (11) are located on the lower side of the support ring (2) between directly adjacent plate packets (10). 5. A converter according to any one of claims 1 or 2, characterized in that the pendulum rods (11) are pivotally mounted using spherical bearings (18) on the support ring (2) and on the converter housing (1). 6. A converter according to any one of claims 1 or 2, characterized in that the two pendulum rods (11) are connected to the support ring (2) and the converter housing (1).