DE891827C - Refractory stone - Google Patents

Description

Refractory Brick The invention relates to refractory bricks made from sintered or melted magnesine, chromite or mixtures of these substances exist in which outer surfaces are covered with metal, preferably unfired refractory bricks of this type. The aim of the invention is to make these known Stones to improve.

Numerous proposals have already become known which deal with refractory bricks with metal cladding, this cladding envelops the stone predominantly or only partially.

Refractory bricks of this type, as they are e.g. In U.S. Patent: 2,289 gi i are sometimes subject to hydration phenomena which must be attributed to the fact that water, e.g. B. in the course of the transport of the stones from the delivery plant to the use: ort or the not always possible dry storage, gets on these stones. Since stones of this type are more or less porous, water is absorbed by them rather eagerly and, presumably supported by capillary physical phenomena, is held between the stone and the sheet metal jacket. The sheet metal jacket hinders the entry of outside air and the escape of water vapor, so that the water can under certain circumstances develop its hydrating effect, especially in the area of these sheet metal covers. The stone so damaged will. Locally brittle - and therefore unusable. These phenomena can be observed both with those stones in which the finished, pressed body is pushed into a box-like sheet metal container, as well as with stones that are obtained by pressing the stone material into the sheet metal casing inserted in the press mold.

In summary, it is important to counter the phenomenon that moisture, that between a larger metallic cover and the stone material as well as in this has penetrated itself, often do not dry out from these areas. can before have still used hydration processes. It can therefore be seen that in the present context, metal supports under a metallic cover or metal containers are to be understood whose uninterrupted surfaces are so large & ind that between these, and, the stone as well as within, of these surfaces water in the neighboring stone body was held for a period of time. can, which is sufficient for hydration.

To avoid these inconveniences, it is proposed according to the invention that Theseetical coverings, which also form one of the stones Can supplement the envelope with openings distributed over its flat areas to provide a uniform, Ensure rapid drying out of any stone material that has become damp.

Embodiments of sheet metal clad stones, as shown in US Pat. These breakthroughs are not in such a relationship to the uninjured parts of the metallic cover that a sufficiently rapid drying of about. einrgedrungenem water from the area of waste coverings, is guaranteed with certainty, as ever so far failed to recognize that sheathed refractory Steinedes require protection from Hydratisierungserscheinungen. On the other hand, however, it can be seen from the cited patent that the small openings left there in the sheet metal jacket favor the inflow of water to the stone material, as the large sheet metal surfaces can, under certain circumstances, actually collect the water.

The penetration of water into the stone material would probably also allow it avoid "using a sheet metal cover that completely and tightly encloses the stone. Such sheet metal shells are not, however, with the middle-in an efficient production manufacturable. One could, of course, also by appropriately careful and watertight Packaging protect every single stone, but it is obvious that this Procedure also cumbersome. and would make it more expensive.

Besides -the Hydratisierungsgefahr have sheet metal coated stones, as described gi i in the SA U-2 Patent 2.99 and also practiced, nochden, -weiteren disadvantage of large 0, berflä-chen - smoothing on. The inventive solution to the problem now also offers the additional advantage that the considerable surface smoothness, which results in an uninterrupted continuous sheet metal casing, is largely reduced by the provision of openings in the metallic coverings. The increase in the coefficient of friction of the surface achieved in this way is desirable. For this reason, the application of the inventive idea is also advantageous in connection with stone materials that are not amenable to hydration per se, as is the case e.g. B. for sheet-coated stones made of pure chromite is the case.

The idea of the invention is also basically both fired as well as unfired stones, of the types in question. In the first case one serves. the per se known method of inserting the fired Stones in the metallic unheathings made according to the invention, while in the second case the stone mass is indigenous, likewise in a manner known per se parts of the cladding are pressed into the molds. In the latter Case occurs, the molding compound enters the openings in the metallic covers, which results in a good anchoring of the stone mass and cover; the surface the stone mass, which through the openings points outwards, then runs flush with the sheet metal outer surface. On the other hand, if you slide the fired stone into the calculations owning a covering, then this binding course is probably not given, but is, the surface friction because of the numerous. Perforated edges nonetheless elevated. In order to improve the adhesion of the coating to the stone body, one can but also additionally; I parts of the sheet metal casing, which the perforations are assigned, protrude inwards into the stone mass, like this in itself is known.

Further features of the invention are described below with reference to the drawing explained.

FIGS. I to 3 show a refractory brick made according to the invention in a plan view (FIG. I), in a longitudinal section along line 2-2 of the FinG. i (Fig. 2) and partly on the line 3-3 of Fig. ggeschnittener i-s # Stiman layer (Fig. 3). Fig. 4 diagrammatically shows part of the casing on its own.

As shown in FIGS. I BIIS 3, the Breitseitendes block element i by a respective U-shaped sheet metal part 2, enclosed "numerous Löcher3 are having. Such holes have any other suitable shape and mutual position. Can, may also be in the Web 4 of the parts 2 may be provided.

From Fig. 4 it can be seen that. isolated tabs' 3 ", the holes 3 = s! ind, can be bent against the inside of the stone in order to" secure a reliable anchoring of the metal supports in the stone material, as is known per se.

It is also possible and recommended that .with openings provided covers by a sheath consisting of wire mesh or by individual flat, un adhering to the stone surface and with -this pressed from Replace wire mesh. It is known per se, wire nets in> the brickwork of, unclad stones between -they, joints. put on it, and with or without the addition of mortar. However, this well-known type of walling has unrelated to the present invention, the one with a metal coating provided, vorzu, ol # s-w-iron metallic coated, refractory stone concerns and aims to preserve the advantages of this type of stone, but the disadvantage the possibility of hydration and the large surface smoothness with simple means to be completely eliminated.

The excellent cementing, which has sheet-coated, preferably iron-coated magnesite or chromite stones and which is also connected to compensating for the shrinkage of the stone mass during the first furnace operation, is achieved by the inventive lattice-like design of the coating or by replacing it with a Wire network # z is not affected in any way. It is easily possible to ensure each gewünschtenEisexianteil without affecting the clear width Eder opening to the fact that the thickness of the sheath is chosen metaflischen correspondingly large.

Claims (2)

PATENT CLAIMS. ' i. Of sintered or molten magnesia, chromite or mixtures of these substances, preferably unfired refractory stone, on which outer surfaces are covered with metal, characterized in that # these metallic, coverings, which, as is known per se, refer to one of the stone can supplement the predominantly enclosing shell, have perforations distributed over their foxed areas, which, due to their corresponding size and mutual position, enable the stone material that has become damp to dry out evenly and quickly. 2. A refractory brick according to claim i, characterized in that the metallic coverings consist of waste wire mesh.