DE1583239B2 - Support or race ring fastening for a metallurgical vessel, in particular for a steelworks converter - Google Patents

Description

The invention relates to a support or raceway fastening for a metallurgical vessel, in particular for a steelworks converter, which by means of an attached to its jacket, only in two opposite circular ring zones provided and by means of radially and angularly movable claws, which are in a spherical seat lie, is mounted on the circumference of the ring.

Metallurgical vessels require safe storage in their tilting racks. The still unresolved Safety problem is less related to the load-bearing capacity of the elements. There is sufficient strength given with regard to this task. The difficult point, however, lies in the storage between vessels and the supporting ring surrounding it. The construction of a metallurgical vessel requires the connection of a ceramic lining layer with a surrounding steel wall of high strength. The real ones Supporting elements form so-called claws, these are angle pieces that are rigidly attached to the steel wall, on the other hand rest on the support ring front sides without much effort according to the state of the art. An essential one The peculiarity of the metallurgical plant lies in the heat load on the brickwork, the steel jacket and the cooler area of the support ring. Accordingly, a heat gradient is formed from the inside of the Lining up to the wider area. Another peculiarity is the tiltability of the vessel, which means There are no changing load conditions on both the steel wall and the claws.

If the vessel axis is vertical, the overall center of gravity is usually below the support ring. The emerging The stress is about tensile stress in the steel wall below the upper level of the claw ring. For this purpose, however, the thermal stress and radial forces that arise over the course of the operating period are superimposed grow up to the masonry. Although the center of gravity shifts in the horizontal vessel axis position, however the stress is therefore not less in certain zones of the steel wall. There is also an uncertainty the locally occurring heat load, the wear and tear of the lining over the course of the operating time progress unevenly. In some cases, the wall heating does not stop until the red glow closed. The steelworker speaks of the "red cheek" that obeys its dangerousness a wall breakthrough can be feared.

The attachment points of the claws can only follow the expected masonry wear

ίο inadequately defined. The entirety of: Masonry, steel jacket and claw weight requires an even distribution of the load around the chip to avoid voltage peaks. The actual location de; Claw imposes this changing bending and / or gate sion loads. The uncertainty of the behavior of the steel wall is carried over to the behavior at least the claws. These neither follow a calculable trajectory nor do they expand: radially out. As far as possible, inclined systems must be expected for all three spatial axes, such as the Pra xis suggests.

One consequence that has not yet been recognized is of considerable importance for the storage of the vessel: on the support ring. If the delay in each individual claw cannot be foreseen and is in turmoil the operating time still changes, then it is out of the question that each claw transfer a safe load share; can be. After a vessel has been put into operation, it is initially given on a cold basis cancel a state. Each individual claw experiences either a relief or an additional load A relieved claw does not serve its purpose. But every claw of a multi-claw system can hardly do anything a greater load can be designed if the vessel ii is to be produced in an economically justifiable manner.

The state of the art includes, in addition to the Viei pratzen system with the disadvantages shown! also statically determined solutions, such as a three-claw bearing according to the USA patent document 32 39 206 (Puxhandl). Two round cones form: an axis on which the axis of the third perpendicular stands. The pair of pins does not lie in any radial plane. The principle of a ball fiery from a central point Moderate thermal expansion cannot be met. A twisting warping movement of a one individual claw leads to an increase in tension ii support ring.

BE-PS 6 71 634 deals with the compensation ;: tion of thermal expansion when storing steel works converters in a support ring. This Prc blem is there by a ball joint bearing for di Converter claws solved, but the entire storage is rigidly attached to the support ring. The Wäi expansion can only be achieved by moving a claw pin in the axial direction within a ball pivot bearings are caught. In the case of distorted claws, this shift in the axial direction is not more possible because the bearing ball can only move ui its center, while the Ve:

Zugs-Radius of the claw emanates from the center of the converter.

BE-PS 6 71221 deals with the same Problem. The solution provided there also exists in a ball joint bearing for the Kor verterpratzen, but the ball joint bearing is stat on the support ring without radial play for the claws fe; assembled.

The well-known example of a Dreipratzenlagerun

: keeps the consideration of the independent twisting possibility of an individual claw as well as the general expansion processes. In this respect, however, the known solution already creates difficulties of a special kind because the support ring is not closed, but is otherwise designed in the shape of a horseshoe.
The present invention has set itself the task of eliminating the deficiencies in the state of the art which have been identified, that is to say of providing a vessel support, the behavior of which does not change significantly during operation. A reliable determination of the proportional claw loads should be made possible.

To achieve the object, it is proposed according to the invention that the spherical receptacle for the claws Its outer spherical shape in a receptacle lies between guides running parallel to the radial is movable. First of all, an essential idea lies in the combination of a statically determined one Storage with the possibility of independent expansion and twisting the claws. Going on, it turns out that the yoke is divided into two zones opposite, the distributed load share can now be determined more reliably.

In addition to the static definition of a three-point support, the free mobility of the Claw a free expansion of the vessel. The assumed load shares of each individual claw remain Preserved over the entire service life.

The invention is thus based on the principle of thermal stresses to let their free run, that is, every displacement movement of a claw as far as possible to allow. In this way, the thermal stress that occurs is prevented from having a retroactive effect the vessel wall. In particular, however, radial movements and movements occurring in other planes can also be used catch the claws at the same time.

According to the previous examples, it was sometimes useful to use claws for vertical positioning of the The vessel (head position) is to be provided on the lower side of the support ring. Such pairs of claws can according to a Another feature of the invention is omitted in that the recordings for the spherical recording of the claw in Recesses of the support or race ring let in and that the recesses are provided with a cover are.

Finally, an inventive embodiment consists in the fact that the receptacle for the spherical receptacle the claw is attached to the face of the support ring or raceway. Especially for the genus With the interchangeable vessels, a quick detachment of the vessel from the support ring is beneficial for the expansion processes to accelerate.

The object of the invention in its entirety is suitable, from a single radial plane through starting through the vessel to allow thermal expansion both in the axial and in the radial direction. Individual movements of the claws are recorded to the same extent as the entire extension of the vessel as such. The overall expansion of the vessel is due to normal thermal expansion while individual claws are also displaced due to overheated wall zones on the vessel can perform.

In the drawing, exemplary embodiments of the invention are shown schematically and in more detail below explained.

F i g. 1 is a plan view in the direction of the major axis of a converter vessel.

F i g. 2 shows the view of a claw support according to the invention.

F i g. 3 shows the embodiment according to FIG. 1 in the same view, but instead of a three-point support as a two-point version.

F i g. 4 is that of FIG. 3 belonging side view, the vessel being drawn in the prone position.

F i g. 5 is again a detail corresponding to FIG. 2 of the claw storage in a special embodiment.

In Fig. 1, the vessel 1 is carried by three claws 2 from the support ring 3, on this on all claws 2 special claw bearings 4 are provided. These essentially consist of a radial one Guide 5, 6 and a spherical bearing 7. The claw bearing 4 is shown in FIG. 2 shown in more detail, the Bück is directed vertically from the outside onto a claw 2. Claws 2 are on both the bottom and top of the support ring 3 is provided. They are each stored in a spherical receptacle 8, the outer spherical shape of which is also guided in a receptacle 9 of the same shape. Each claw 2 can therefore have radial expansions within the guides 5 and 6 run and any angular movement within the ball seats 8 and Perform 9. It goes without saying that the radial guides 5, 6 are also welded onto the end face 10 of the support ring or screwed guide strips can be formed.

Another exemplary embodiment (FIG. 3) provides that the vessel 1 on the support ring 3 has only two in each case To store claws 2. If so, the spherical receptacles 8 and 9 within a housing placed on the support ring 3 11 F i g. 4 are installed, and this housing 11 should not be repeated on the underside of the support ring 3, then one attached to the vessel 1 is sufficient Tilting moment support 12, which rests against projections 14 via strips 13 in order to prevent the vessel from to be able to swing the continuous axis 15 (FIG. 3).

For all embodiments, it is also possible to have the spherical receptacles 8, 9 within the support ring 3, as in Fig. 5 and to provide a recess 16 for this purpose. In this the reception is capable 9 to slide radially as suggested with the original radial guides 5 and 6. Around To ensure rapid installation and removal of the vessel, a cover 17 closes the recess in such a way that the pins 2 of the vessel 1 are practically locked and that the vessel is both radially and can expand axially, but is firmly connected to the support ring 3.

It goes without saying that the exemplary embodiments are shown only in their schematic form and otherwise the rules of practical implementation, be it with regard to a sliding or spherical bearing, to apply are.

1 sheet of drawings

Claims (3)

Patent claims: 1. Support or raceway attachment for a metallurgical Vessel, especially for a steelworks converter, which is attached to its jacket by means of provided only in two opposite circular ring zones and by means of radial and angular movable Claws, which are in a spherical receptacle, is mounted on the ring circumference, thereby characterized in that the spherical receptacle (8) for the claws (2) with its outer spherical shape in a receptacle (9) which can be moved between guides (5, 6) running parallel to the radial is. 2. Fastening according to claim 1, characterized in that the receptacles (9) for the spherical Recording (8) of the claw (2) let into recesses (16) of the support or race ring and that the Recesses (16) are provided with a cover (17). 3. Fastening according to claims 1 and 2, characterized in that the receptacle (9) for the spherical receptacle (8) of the claws (2) is attached to the end face (10) of the support or race ring (3).