LU84167A1 - FIRE-RESISTANT, GAS-PERMEABLE CONSTRUCTION - Google Patents

Description

A 716 V * 'i Demande de brevet de ........................................ ...........

Désignation de l'Inventeur / ii! P, «snMceinnô René NEYEN, Administration Centrale de l'ARBED () Le soussigné -" '2930 LUXEMBOURG .................... .................................................

agissant en - de mandataire du déposant - ^ ARBED S.A. avenue de la Liberté ...... L "T" 2930 ™ LUXEMBOURG ................................. .........................-........................ ..............................................

(s) de l’invention concernant:

Refractory, gas-permeable structure désigné comme inventeur (s): 1. Nom et prénoms .................................. .................................................. .................................

3 rue Bessemer, L - 4032 ESCH / ALZETTE

Address ................................................. .................................................. .................................................. ........................................

ο Μ «» «DENIER Guy 2nd Nom et prénoms ...................................... .................................................. .................................................. ..............................

Address ............................. 24.rue ... des..Tilleuls ^ ... F ..... .57070 ... METZ ............................................ .................

9 Μλπ, nrinnmc HENRION ROiTiaîn 3. Nom et prénoms ....................................... .................................................. .................................................. ............................

Address ..............................! 2.Z..r.ue..J, .M .... .....................................

'Il affirme la sincérité des indications susmentionnées et déclare en assumer l’entière responsabilité.

Luxembourg) e 22 octobre ^ g82

*) 4. GÔÉDËRT Jeäri, Ï3Î, rue de’Luxembourg, L - 4221 ESCH / ÀLZËTTE

5. GOEDERT Ferdinand, 10 rue Bessemer, L - 4032 ESCH / ALZETTE

6. SMALL Henri, 141 avenue de la Liberté, L - 4602 NIEDERCORN

7. AUER Josef, Grossveitsch No. 159, A - 8664 VEITSCH

8. WENDL Berndt, Grossveitsch No. 193, A - 8664 VEITSCH ~

René Neyen (mandataire) (signature) A 680 26_ (1) Nom, prénoms, firme, address.

#Ov * 1 -_____ A 1______l. . _1 'i / - A 716

Patent application

Applicant î ARBED S.A.

Avenue de la Liberté L - 2930 LUXEMBOURG

Fireproof, gas-permeable structure / -

Refractory gas permeable structure

The invention relates to refractory, gas-permeable structures for blowing gases into metal treatment vessels through their lining.

The oxygen blowing process used for pig iron freshening has recently been improved in a metallurgical manner in such a way that secondary gases, such as nitrogen 10 or argon, are blown in in a controlled manner through the converter base. Auah in oxygen bottom blowing processes and in metal treatment vessels, such as oven pans, desulfurization pans u. Like., the blowing of gases into the metal bath comes through the bottom of the vessel or the lining of the vessel walls.

15

The gas-permeable stones to be inserted into the lining of the vessel are subject to the requirement that their durability correspond to that of the other refractory lining, since it is difficult to replace sponged gas-duro blocks in the hot state 20. Furthermore, the gas introduction should be possible both continuously and in particular discontinuously, i.e. the vessel should also be operable without gas introduction and after the gas supply has been restored, the stones should be gas-permeable in an unchanged manner. In addition, the gas permeability of the 25 stones over their brewing time, i.e. over an entire kiln trip, remain essentially the same.

In patent application LU 81.208, the applicant has shown a device intended for insertion into the bottom of a metal treatment vessel for blowing a treatment gas into a metal bath, which has a good durability and allows the desired amounts of gas to be injected. This device essentially consists of a refractory, gas-permeable structure, 5 in which a plurality of flat, corrugated, tubular or wire-shaped, metal-like separating members of small wall thickness are embedded in the refractory material in axial direction. According to one embodiment, this structure consists of steel blades and segments or strips of refractory material in alternating An-10 order.

Since a prefabricated bloak made of refractory material has to be cut into the required strips or segments in order to manufacture such structures, this is a very complex process. 15 Durah pressing segments made of refractory material are, due to their small diameter and large length, not sufficiently manageable and warp if they are subjected to a stone fire.

20 In the patent applications LU 82.552, LU 82.553 and LU 82.554, the applicant has improved the refractory structures to the effect that the segments are produced in molds, with metal layers being pressed with the refractory material. The adjacent longitudinal flats of the segments can be smooth or 25 with profiled, e.g. corrugated or grooved surface.

*, When assembling the segments provided with profiled metal pads, joints, channels, etc. are created in the structure, which means that the gas access can take place, whereby the profiled longitudinal surfaces can rest on a smooth, as well as on a profiled longitudinal surface of the adjacent segment. The adjacent longitudinal surface of the sewing segment can in turn be provided with a pressed-on metal coating or it can be free of printing. Auah can also be pressed into 35 individual segments of pairs of adjoining segments which are also pressed together of pairs of adjoining metal inserts, e.g. Bleohplatten to be embedded. You can choose between - 3 -

Metal plates of a pair of inserts spacers can be arranged.

Fireproof structures of the type just rubbed work satisfactorily when argon or stiocarbon is used as the purge gas. 5 You can easily withstand 600 or more batches. Unfortunately, argon is a very expensive gas. Pure plastic is cheaper, but it dissolves at high temperatures in the liquid steel, which has an adverse effect on the steel grade.

- 10 The applicant has consequently undertaken other gases, such as carbon dioxide through the blowing stones in the

To blow in the converter, whereby a terrible wear of the refractory bricks had to be ascertained and the refractory mass crumbled up to a few batches. It was also found that the refractory material decomposed mainly from the warm side of the building. The temperature prevailing there causes visible reactions such as C02 = CO + 0 and C02 + C = 2 CO, where the carbon atom originates from the carbon-containing binder by means of the refractory mass. In addition, it is assumed that 20 reactions such as C02 + MgO = MgC03 take place. This could explain the crumbling of the stone mass.

The aim of the invention is to provide a refractory, gas-permeable structure consisting of segments, the 25 segments of which do not react substantially with the flushing gas used, which can sometimes have an oxidizing effect.

*. This goal is achieved by the structures according to the invention, the segments of which are provided with a gas-tight coating at least on the longitudinal faces. Further advantageous embodiments of the invention are described in the sub-claims.

The structure according to the invention consequently allows any gas to be blown into the converter which, at its normal operating temperature, does not form any connections with the selected coating. The exact composition and grain structure of the refractory mass are of secondary importance here.

- 4 -

The mass primarily gives the coating a hold and also prevents it from overheating by dissipating the heat to the cold side of the structure. One of the most important properties of the refractory material is a low expansion coefficient, or one that is adapted to the 5 coating, to prevent premature cracking in the Avoid buildings. Suitable refractory materials are, for example, tar-bonded sintered magnesia, tweeter material or merging of magnesia and chrome ore.

10 The invention will be explained on the basis of drawings showing some ways of execution. Show it :

1 is a perspective view of a building structure according to the invention and FIGS. 2 to 6 are perspective sections through 15 individual segments.

The building structure 1 shown in FIG. 1 has a metal housing 10 constructed from plates which are welded to one another and surrounds a total of twelve segments 3 which are arranged in two rows of 20 pieces each. Each segment is provided with metal supports 4, 4a on all four long sides. The bleahe is wavy on two long sides, while the bleahe is made flat on the other two sides. The segments are installed in such a way that a corrugated sheet 4a is in contact with a flat sheet 4. A sheet 5 is inserted between the two rows of the segments 3, along which as well as along the metal supports 4, 4a of the segments

A

3 a gas pressure cycle takes place. The segments are spaced from the end face of the metal housing by means of two strips 6, which are arranged on the inside of the metal housing 10 and are preferably attached to it by point welding. At this point, which represents the * cold side, an end plate 7 is dioht, which is provided with a tube selection 8. The space that remains free between the end plate and the end faces of the segments 3 is the distribution space for the gas. In this embodiment, the refractory mass 9 is not provided with a protective sheet on the cold end face of the segments 3. On the cold side of the building 1 there are only temperatures of 300-400 ° C, for example where carbon dioxide only very slowly attacks the refractory mass, which means that a protective coating can be treated as absolutely unnecessary. The opposite, not visible side represents the fire side of the building and can be 5 spilled with an abdeakbleah. The latter is used when the infeed of the metal treatment vessel surrounding the structure contains tar or similar carbon carriers. It then serves to prevent the penetration of tar or the like into the gas passage joints of the structure or the sticking of the same while heating the vessel. The Abdeakbleah cream melts at the start of operation and releases the joints.

FIG. 2 shows a segment 23, the refractory mass 29 of which is surrounded on all four sides with flat steel blades 24. The 15 flat flowers are provided with longitudinal metal strips 22, the strips being staggered on two opposite sides. The strips 22 can be attached to the sheet by spot welding. The extent of the gas permeability can be varied by the thickness of these strips. However, the strips may not be chosen too thick, in order to be able to operate the building without gas supply. Some metal penetrates into the narrow gap between the segments; when the gas supply line is maintained again, this penetrated metal is flushed out of the structure again and the original gas permeability 25 is restored. This surprising effect only sets in when the flower strips are not too diok.

In the segment 33 shown in FIG. 3, the refractory mass 39 is surrounded by blades 34 which are provided with longitudinal bars 32 30. 'The longitudinal ledges are staggered on opposite blades. The bars can be rolled into the bleeh in a simple way.

4 shows a segment 43, the refractory mass 35 49 of which is surrounded on all sides by steel blades 44. In this embodiment, the gas throughput takes place primarily through grooves 42 rolled into the sheet 44.

- 6 -

In the segment 53 shown in FIG. 5, the refractory mass 59 is surrounded on all sides by flat sheets 54. The distance between two segments is set by means of a mat-like structure 52 made of steel wool.

5

In the previously driven segments, steelbleah is used as the coating of the refractory mass. The bleah is rolled into the required shape, cut to size, bent and welded.

Another advantageous embodiment of the invention shows the

Fig. 6. Refractory material is first introduced into a press mold. The mold provides the refractory material with bars, grooves or waves. After a short thermal treatment, which may be necessary to solidify the material, the elongated cuboid elements are painted. The liquid used can be, for example, a metal paint with a ceramic-like binding material or a ceramic paint. The two segments 63 shown in FIG. 6 have a coating 64 which was produced by immersing the corrugated refractory material 69 in a metal paint bath. After immersion, the segments are annealed depending on the metal color selected. It may be necessary to repeat the thawing and tempering process several times until the desired thickness of the coating is reached.

a

Claims (8)

1. Refractory, gas-permeable structure, for blowing gases into metal treatment vessels through their lining, 5 whereby the structure consists of at least two adjacent segments, which have a core made of refractory material, characterized in that the segments with at least on all their long sides are provided with a gastight cover. ; 10th 2. Building structure according to claim 1, characterized in that the coating consists of sheet metal. 3. Building structure according to claim 2, characterized in that the 15 Metallbleoh is provided with grooves, bars or waves. 4. Structure according to claim 2, characterized in that spacers, optionally in the form of metal strips, wires or steel wool, are embedded between the segments. 20th 5. Building near the Anspruoh 2, characterized in that the metal sheet is steel sheet, which can be provided with a surface protection. 6. Building structure according to claim 1, characterized in that the * gas-tight coating consists of a metal color. 7. Building structure according to claim 1, characterized in that the gas-tight coating consists of a ceramic paint. 30th 8. Building structure according to one of claims 1-7, characterized in that the segments are provided on all sides, with the exception of the fire side coming into contact with the liquid metal, with a gas-tight coating.