CS269744B1 - Device for attaching a steel converter vessel in a carrier ring - Google Patents

Abstract

The task of the solution is to completely eliminate point force effects arising from different thermal expansion of the vessel body and the supporting ring, while minimizing the stress on this vessel body, which ensures its high service life. For this purpose, this solution consists of a connecting cone, which is attached to the steel converter vessel body with its smaller diameter part and is attached to the supporting ring with its second part with a larger diameter.

Description

The invention relates to a device for attaching a steel converter vessel to a support ring and solves the complete elimination of point force effects arising from different thermal expansion of the vessel body and the support ring while simultaneously minimizing the stress on this vessel body, which ensures its high service life.

It is known to attach the vessel to the supporting ring of the converter, where at least two double brackets are welded to the vessel above and below the supporting ring and these fit into the support and centering surfaces formed on the supporting ring. ><

It is also known to attach the container to the support ring by at least three brackets welded to the container with rods, attached to the support ring by means of tilting bearings and supplemented by at least M additional two brackets in the axes of the pins for the transfer of the tilting moment. A common disadvantage of the above solutions is the significant eccentricity of the brackets, given by the distance of the container wall from the axis of the support ring and their design consisting mostly of flat elements attached to the container body. The eccentricity is caused by relatively significant concentrated stresses on the container, also associated with local temperature effects. Another disadvantage is the manufacturing and assembly laboriousness given the requirements for accuracy of placement, the need to compensate for thermal expansion and finally the difficult and usually unrealistic replacement of a worn container without simultaneous replacement of the support ring. .

These shortcomings increase the investment costs of the equipment, prolong its installation and reduce the operationally permissible temperature of the vessel, with an impact on the consumption of refractory material and the time of use of the equipment.

It is also known to mount the steel converter vessel in a support ring, which is formed by three evenly spaced support rings around the circumference of the vessel, engaging in the corresponding rings attached to the support ring by means of brackets. The support rings are provided with a circular recess into which the pins of the support ring ring engage and concentrically also a collar engaging in the collar formed in the ring of the support ring. Another known mounting of the steel converter in a support ring is formed by three evenly spaced support rings around the circumference of the vessel, engaging in the corresponding rings of the support ring connected by a bracket to the support ring. The support rings are provided with a conical recess into which the conical support pins of the rings of the support ring engage. Conical-

The connection ratio is in the range of 1:4 to 1:16, determined according to the diameter of the support pin in relation to the diameter of the vessel and the specific thermal expansion of the materials used.

The disadvantage of the above-mentioned mounting of the steel converter in the supporting ring is that they do not allow to completely eliminate the point effect of the mounting including local temperature effects. At the same time, it is not possible to ensure that, due to the different thermal expansion of the vessel body and the supporting ring, there are no force effects between these parts.

Another disadvantage is that the fit requires precise centric fit of the housing body of the converlure into the support ring, which is associated with significant production demands. Another disadvantage is that the use of sliding parts of the fit, i.e. support rings and counter rings, for which precision machining is required, increases the labor and production costs.

Another disadvantage is that sliding parts are subject to wear and, in extreme cases, mechanical damage, which results in the loss of the original function of this node.

The above disadvantages are eliminated by the device for attaching the steel converter vessel to the support ring, according to the invention, the essence of which is that it consists of a connecting cone, which is attached to the body of the steel converter vessel by its smaller diameter part and is attached to the support ring by its second part of larger diameter.

The advantage of the device according to the invention is that by this attachment of the steel converter body to the support ring, point effects, including temperature effects, are completely eliminated. Another advantage is that even with different thermal expansion of the vessel body and the support ring, there are no major force effects between these two parts. These effects, resulting from the actual

CS 269 744 Bl the fact that the temperature of the lower part of the cone with a smaller diameter is the same as that of the support ring and the temperature of its upper part with a larger diameter is the same as that of the vessel, whereby this attachment does not introduce any stress caused by thermal expansion into the vessel, or rather the support crown. The force stresses of the connecting cone of the vessel and the support ring caused by the vessel's own weight, tilting moments when tilting the steel converter are distributed over a large diameter, which allows them to be implemented with minimal weight and labor. Furthermore, the minimal stresses transmitted to the body of the steel converter vessel by this attachment ensure its high service life. Another advantage is that the need to use sliding parts of the bearing, which require precision machining, is completely eliminated, thereby reducing production costs. The exemplary detachable connection between the connecting cone and the support ring allows easy assembly and disassembly of the vessel body without the demands that are necessary in known designs. The attached drawings show an exemplary embodiment of a device for attaching a steel converter vessel to a support ring, where Fig. 1 shows a partial cross-section of the vessel and the converter support ring, Fig. 2 shows a detail of the contact of the connecting cone with the support ring, and Fig. 3 shows a detail of the contact of the connecting cone with the steel converter vessel.

The attachment of the steel converter vessel to the supporting ring according to the exemplary embodiment consists of a connecting cone 2» which is attached with one part of a smaller diameter to the body i of the steel converter vessel by a circumferential weld £.

The second part of the connecting cone 2 of a larger diameter is provided with a flange 5 along its entire circumference, by which this cone 2 is fastened by detachable joints 6 to the flange 2 attached to the support ring 2. From the above exemplary embodiment it follows that the force effect of the connecting cone 2 on the body 2 of the steel converter vessel and the support ring is realized evenly over the entire circumference of these parts with minimal eccentricity and that the temperatures of the connecting cone 2 of the body 2 of the steel converter vessel with the support ring 2 are practically identical and therefore the stress on the connecting cone 2 of the body 2 of the vessel and the support ring 2 due to the vessel's own weight from the effect of the converter tilting and from the compensation of expansions due to different temperatures of the individual parts of this mounting are minimal. The screw connection, or rather another detachable connection 6 of the connecting cone 2 ^with the supporting ring 2, enables easy assembly and disassembly of the body 2 of the steel converter vessel. »

Claims (1)

A device for attaching a steel converter vessel to a meat ring, characterized in that it consists of a connecting cone (3), which is attached with its smaller diameter part to the body (1) of the steel converter vessel and with its second part with a larger diameter is attached to the supporting ring (2).