CS270647B1 - Location of slag ladle on carrying ring - Google Patents

Abstract

Solved in structural design ... Carrying elements of the crucible and the carrier: the preference for the local heat does not cause the upper part to deform pelvis. To this end, it is created at each of the opposite sides of the wall (2) etruekové pans clay) horizontal triangular zebro (6) e vertical step-> com (7), which is stored between two para-; by a carrier (8, 9) on the support ring; (5).

Description

The invention relates to a structural modification of the placement of an Etruscan ladle on a support member to reduce local thermal stresses causing deformation of the upper part of the ladle.

The teat pans are cast cones of conical shape and a round bottom at the upper edge, reinforced by a reinforcing ring, and are used to collect and transport liquid Etrus from the blast furnaces to the dump or to the place of its further processing. The teat pan is suspended in the lower third on four rods, fixed in suspension eyes on the wall of the pelvis. In the upper third, two forks are formed on the walls of the pelvis, reinforced to the sides by horizontal ribs into which the inch protrusions fit on a support ring, which is tiltably mounted about an axis passing through its diameter. The ends of the bricks on which the teat pan is suspended are also fastened to this support ring. When pouring Etruscan ee, the ladle rotates about an axis interspersed with the diameter of the support ring together with it by 120 ° and the weight of the ladle and Etrusk is held in balance by the eils in the suspension rods and the forces between the pelvis forks and inch-shaped protrusions ns the support ring. A support ring located around the circumference of the pelvis prevents its free cooling by the flow of ambient air around its surface in said part of the pelvis. This phenomenon then increases longer as the gap between the surface of the pelvis and the support ring decreases. These surroundings lead to an enormous increase in temperature in the wall of the teat basin in the area of its storage in the support ring. The upper part of the pelvis, which is located above the surface of the Etruscan and is not in direct contact with it, cools to a temperature significantly lower than the wall in the area of the support ring. This temperature drop gradient in the ladle wall induces compressive stresses in this thermally exposed area of the wall which exceed the yield strength of the ladle material. As a result, permanent plastic deformations occur in the area of the wound crown in the place of the reinforcing ribs of the pelvis forks, which cause the pelvis shields to gradually deform inside the pelvis under the reinforced forks, which makes it difficult to remove Etrus from the pelvis decommissioned for thousands of times. It should be noted that not only the thermal interface in the basin wall, but also the local heat dissipation by two forks and four reinforcing ribs on the basin contribute adversely to the growth of deformation stresses in the basin shaft. To a large extent, ee reduces the magnitude of the temperature gradient in slag ladles, the upper part of which is provided with an annular bandage made of ceramic fibrous materials in the form of mats or plates anchored to the outer surface of the wall of the upper part of the slag ladle. However, despite this thermal insulation of the exposed area of the basin, the two uniformities formed as inserts on opposite sides of the teat pan shell, which ee consist of two protrusions reinforced by side fins, which ee participate as cooling elements in intensive local heat dissipation, disrupt the uniformity of heat dissipation. The inhomogeneous temperature field then causes the formation of local thermal stresses, causing permanent deformations in the wall of the basin.

These disadvantages are eliminated by the placement of the slag ladle on the support ring in the teat car body, formed by support forks and driving fingers mounted on opposite sides of the slag ladle and on the support ring, according to the invention. The essence of which lies in the fact that on both opposite sides of the upper part of the Etruscan basin wall a horizontal triangular rib is formed with a vertical protrusion, which is placed with lateral play between two parallel carriers formed on the upper surface of the noose ring.

The entrainment elements formed on both opposite sides of the Etruscan ladle by a single rib and protrusion and the formation of two carriers on the support ring substantially reduce the size of the cooling surfaces of the ladle wall protrusions, and thus the inhomogeneity of the radiated temperature field in this heat-exposed ground. By suitable intoxication of the bearing elements and thermal insulation of the upper face of the vessel ee reduces the temperature gradient at the level interface in the etruek ladle and suppresses ee the amount of thermal stress and deformation of the slag ladle. The positive effect of this design in the bearing of the etruek ladle in the support ring is further enhanced if the bearing of the thumbs and carriers is moved into the cloud-reinforcing edge of the slag ladle, i.e. into a relatively cold cloud lying above the teat level.

CS 270 647 BL

The essence of the invention is elucidated in the following description on the example of a practical embodiment of a slag ladle with a broken wall thickness * provided with thermal insulation, as shown in the drawings, where Fig. 1 shows a vertical section of a part of a slag ladle. 1. A variant of the embodiment with an increased bearing of the driving protrusion is shown in a vertical section in FIG. 3 and FIG. 4 in a plan view of a part of the slag ladle in FIG. 3. FIG.

On the wall 2 of the slag ladle JL provided with thermal insulation 3, extending from the upper reinforcing rim 4 to the location of the slag ladle JL in the support ring 5, a horizontal rib 6 is formed by a vertical protrusion 7 and parallel carriers 1 are formed on the support ring 6. , 9, into which the protrusion 7 fits, see Fig. 1. In this embodiment, the rib 6 and the protrusion 7 are located in the region of the thermal interface through which the level plane passes through the sleeves 10.

Conditions of undesired heat dissipation by the rib 6 and the protrusion 7 become more difficult when the elements are placed to the reinforcing rim 4 of the slag ladle 1, as shown in Fig. 3, where the rib 6 1 with the protrusion 7 lies above the Etruscan surface 10 where wall 2 is substantially lower than its lower part, washed by Etruscan 10.

Claims (1)

OBJECT OF THE INVENTION Bearing of the slag ladle on the support ring of the slag car body, consisting of support forks and driving fingers mounted on the walls of the slag ladle and on the upper surface of the support ring, characterized in that each of the opposite sides of the slag ladle wall (2) is formed a horizontal triangular rib (6) with a vertical protrusion (7) which is accommodated in a lateral clearance between two parallel carriers (8, 9) formed on the upper fence of the support ring (β).