CS261340B1 - Steel converter's vessel clamping into carrying ring - Google Patents

Abstract

The solution is to achieve minimal eccentricity and temperature effects during attachment container into the carrier ring. For that the purpose of fixing the container wall at least two bearing rings, conical a recess into which the conical plugs are inserted the bearing pins of the rings are firmly connected with a carrier ring where the conicity of the connection is in the range of 1: 4 to 1:16

Description

The present invention relates to the attachment of a steel converter vessel to a carrier ring and to the solution to achieve minimum eccentricity and temperature effects when the vessel is attached to the carrier ring.

To date, a container has been used in the converter carrier ring, wherein at least two double brackets are welded on the container and below the carrier ring and these fit into the support and centering surfaces formed on the carrier ring. It is also known to attach the container to the support ring by at least three brackets welded on the container with rods attached to the support ring by means of tilting bearings and to be supplemented with at least two pivot moment clips at least in the axes of the pins. A common drawback of these solutions is the considerable eccentricity of the brackets given by the distance of the wall from the axis of the bearing ring and their execution from mostly flat

Λ elements welded to the vessel. Eccentricity is caused by relatively high concentrated stresses of the vessel, also associated with local temperature effects. A disadvantage is also the manufacturing and assembly work given by the requirements for bearing accuracy and necessity of compensation, thermal expansion and finally even unrealistic replacement of worn container without simultaneous replacement of the carrier ring. In summary, these shortcomings increase the investment cost of the equipment, prolong its assembly and reduce the operationally accessible temperature of the vessel, with an impact on the consumption of refractory material and on the time utilization of the equipment.

These drawbacks are overcome by attaching the steel converter vessel to a carrier ring according to the invention, which consists of at least two carrier rings mounted in the vessel wall and provided with a conical recess, with the conical nose rings of the rings fixedly connected to the carrier ring. The conicity of the connection is in the range of 1: 4 to 1: 16.

The advantage of the fastening according to the invention is to achieve a minimum eccentricity of the bearing against the container, since this is only due to the different extensibility of the container relative to the carrier ring during operation and the necessary dimension of the bearing ring bearing surfaces. Another advantage is the minimum local temperature effects on the container, since the welded carrier ring is a thermal component of the container and its cooling effect is minimal in terms of dimensions, minimum manufacturing effort, since the requirement for machining accuracy is only for the carrier rings and counter rings and minimum assembly effort . An advantage is also the easy replacement of the worn container, since disconnecting the container only requires disconnecting the support brackets with the counter rings. In summary, the advantage is an increase in both economics of converter production and operation, especially the possibility of higher utilization of the refractory lining of the vessel.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal cross-sectional view of the vessel and support ring taken along line AA of FIG. 2, in which the cross section is taken along the plane BB of FIG. 1 and FIG. is a detail of the carrying ring and counter ring design.

The steel converter vessel receptacle according to the exemplary embodiment consists of four uniformly circumferentially into the vessel 1 welded support rings 4 fitting into corresponding rings 4 connected by means of a bracket 4 to the support ring 2. £. The conicity of the connection is in the range of 1: 4 to 1:16 determined according to the diameter of the support pin ve in relation to the diameter of the container a and the specific thermal expansion of the materials used. For ease of assembly, the joint is provided with a concentric bolt přich fastened on the one hand by a flange a and a ring a and on the other hand by a nut 10 with a washer 11 on the support ring nádoby of the container nádoby.

During assembly, the segment of the carrier ring container 4 is inserted into the carrier ring 2, centered and, using the bolt 8 of the flange 8 of the nut 10 and the washer 11, connected to the ring 8 on the bracket 8. After aligning the brackets 5 with the rings 8, they are welded to the carrier ring 6 and the bolt 8 is removed or the flange 8 is removed, the nut 10 with the washer 11 and the bolt 8 secured by the weld on the support ring side. container, possibly also as an accident insurance in case of unforeseen excessive deformation of container. In operation, the different expansion of the container 4 and the support ring 4 given by their different temperature is compensated by displacement of the support pin 4 in the recess 6, while simultaneously expanding the support ring 8 so that with correct selection of conicity the clearance between support pin 8 and recess 6 remains practically the same . When removing a worn container it is sufficient to disconnect the brackets j? With the counter-rings 6 and after dismantling of additional devices on the container, for example media inlets, the container 1 can be pushed out of the carrier ring 2. Without changing the effect, the attachment can alternatively be carried out with three or more carrier rings 2. transmitting tilting moment and the play between the container 1 and the support ring 2, the two supporting rings 2 · By using more than two rings decreasing demands on heir _y dimension and adverse effects on the container χ, however, requirements for accuracy.

Claims (1)

P R Ε 0 M f. Τ V Y N ^ I.EZU Clamping of a steel converter vessel in a support ring, characterized in that it comprises at least two support rings (3), fixed in the wall of the vessel (1) and provided with a conical recess (6), into which the conical support pins (7) of the rings (4) are inserted. ) fixedly connected to the support ring (2), wherein the conicity of the connection is in the range 1: 4 to 1:16.