LU88629A1 - Protective lining in retractable bricks for an industrial oven cooling box - Google Patents

Description

Protective lining in refractory bricks for an industrial oven cooling box.

The present invention relates to a protective lining of refractory bricks for a cooling box of an industrial oven, in particular of a metallurgical oven. It also extends to a cooling box provided with such a lining of refractory bricks, as well as to an industrial oven, in particular to a metallurgical oven equipped with such a cooling box.

In the field of metallurgical furnaces, this type of box is widely used in blast furnaces, where it is often designated by practitioners under the name of "stave cooler". The following description will more particularly refer to this application to a blast furnace, without the invention being strictly limited thereto.

Without going into details which have no bearing on the object of the invention, it will simply be recalled that such a box is constituted by a large part, generally made of cast iron, in which are embedded pipes of circulation of a coolant. It is placed inside the blast furnace, particularly in the tank., With its large so-called external face parallel to the external shielding of the furnace; the other large, so-called interior, face of the box faces the inside of the blast furnace. When building or renovating a blast furnace, this large, so-called interior, face of the box is generally provided with a lining of refractory material, which protects it against the erosive action of the load and against severe chemical and thermal attacks due to the physico-chemical phenomena which take place in the blast furnace.

According to a technique well known per se, the protective refractory lining can be made of bricks, i.e. molded and cooked bodies, produced independently of the box and subsequently built against the so-called internal face of the box and supported on support copings fixed to some of these boxes. The shape of these bricks is in principle arbitrary, but it is generally parallelepipedal or possibly cylindrical, for reasons of convenience of manufacture and installation. The base, or bearing face, of the bricks is flat, like the so-called inner face of the box against which the bricks are placed. In service, the aforementioned stresses, however, lead to the destruction of the copings and the loosening of the bricks, thus leaving unprotected sometimes large portions of the inner face of the box.

In a recent proposal, the present applicant has described a refractory lining of this type, in which the box is provided with hooking means and where the refractory bricks comprise fixing means cooperating with the aforementioned hooking means.

In service, however, it is inevitable that this lining will wear out under the effect of the aforementioned stresses, or even that it will eventually detach in fragments, thus revealing sometimes large parts of the so-called inner face of the box. This face is then subjected to severe erosion, which makes its surface very irregular. In addition, wear or destruction of the lining generally leads to deterioration or even disappearance of the means initially provided for hanging and / or fixing the bricks to the so-called inner face of the box. It is hardly currently possible to directly repair a damaged lining in this way, which implies that it is necessary to dismantle the box and replace it with another.

It is known in itself to provide, on a box, threaded elements used to fix anchoring lugs for a monolithic lining of refractory concrete poured in place. Such a threaded element can for example be a simple threaded hole formed in the so-called inner face of the box and receiving a screw for fixing said anchoring lugs, or even a stud planted in this face and provided at its other end with a bearing threaded for fixing said anchoring tabs.

The installation of such anchoring lugs is not suitable for making a lining of refractory bricks, which is the field in which the invention is situated. On the other hand, it may be advantageous to use threaded elements, some of which are known per se in the art, to form reliable means for hooking bricks on damaged cooling boxes.

The object of the present invention is to propose a refractory lining of this nature, comprising hooking and fixing means which can be placed on a damaged box without the need to dismantle the box, and whatever the means of 'hanging and / or fixing initially provided on the box. It should also be emphasized that the refractory lining proposed by the present invention is not only intended for a used casing, but that it can also be placed on a new casing.

According to the present invention, a protective lining of refractory bricks for a cooling box of an industrial oven, in which said box is provided with hooking means comprising at least one threaded element and said refractory bricks comprise fixing means. cooperating with said hooking means, is characterized in that said hooking means comprise at least one rod with an external thread cooperating with a threaded element, and in that said fixing means comprise at least one hole passing through said brick, in correspondence with said resp. said threaded rod (s), and at least one clamping nut engaged on the external thread of said, resp. of said threaded rod (s), said brick being engaged on said, resp. said rod (s) threaded and being held in place on it (s) by said, resp. said clamping nut (s).

According to a particular embodiment, said threaded element consists of an internal thread hole formed in the so-called internal face of the box, and the threaded rod is screwed into said internal thread hole, preferably perpendicular to the so-called internal face of the box. .

According to another embodiment of the invention, said threaded element consists of a stud whose pointed end is planted in the so-called inner face of the box and whose other end is provided with a threaded bearing, and said rod threaded cooperates with said threaded bearing of said piton.

This threaded seat of the piton can be formed by an external thread and the threaded rod then has at its end an internal thread recess by which it is screwed onto said threaded seat.

This other end of the piton can also be constituted by a socket with internal thread, into which the threaded rod is then screwed directly by its external thread.

In another embodiment of the invention, which results from the combination of the two embodiments which have just been indicated and in which said threaded element is an internal thread hole formed in the so-called inner face of the box, the rod threaded is fixed to the so-called inner face of the box by means of an assembly member, such as a nipple, having a part provided with an external thread by which said assembly member is screwed into said hole and a part with internal thread, for example forming a socket, by which the threaded rod is screwed onto said assembly member.

In a manner known per se, at least one of said holes passing through the refractory brick has at least two sections having different transverse dimensions, in particular different diameters, and separated by a shoulder intended to receive said clamping nut, the so-called interior section. , i.e. close to the interior of the furnace, having a larger cross section than the so-called exterior section. Once the brick is in place and the nut tightened, the remaining volume of the so-called interior section of the hole is filled with an appropriate refractory material, such as a refractory mass, in order to protect the threaded rod and the tightening nut. and to restore the continuity of the refractory lining on the face of the box.

The respective lengths of said sections of the hole passing through the brick, considered in the direction of the thickness of the brick, must be adapted so as to guarantee on the one hand a sufficient mechanical resistance of the brick and on the other hand a duration of protection sufficiently long of the threaded rod and the nut by said refractory mass. In this regard, it has been found advantageous to give the so-called external section of the hole, a length between 25% and 40%, and preferably between 30% and 35%, of the thickness of the brick.

Locking means can also be provided, for example metal washers possibly combined with Belleville washers, between the nuts and their respective bearing surfaces on the refractory brick, in particular on the abovementioned shoulder.

The above-mentioned hooking, fixing and locking means, namely the threaded rods, the nuts and the washers, are preferably made of steel resistant to high temperatures as well as to the action of various gases such as hydrogen (H2) and carbon monoxide (CO), in particular austenitic refractory steels or stainless steels.

The refractory lining recommended here proves to be particularly advantageous, not only when mounting a new box in the workshop but also when repairing a worn box, either in the workshop after dismantling or directly in the oven without dismantling the box. It makes it possible, after possible cleaning of the so-called inner face of the box, to install the required hooking means, which requires only direct access to the so-called inner face of the box. Another advantage of the refractory lining of the invention is that the installation of its attachment means does not depend on the state of the so-called inner face of the box.

The refractory lining of the invention is therefore produced, or repaired, on a damaged casing face by applying a layer of an appropriate refractory mass, intended to compensate for the irregularities of this face and to restore heat transfer. maximum between the brick and the box. Of course, this possibility also exists in the case of the linings described in the applicant's recent proposal mentioned above, insofar as their attachment means can be made independent of the state of the face of the box.

The refractory mass to be used in such a case must - be able to be applied in thin layers, for example with a trowel, - have a low content of volatile matter in order to limit the risk of shrinkage during setting, - have a high thermal conductivity , to avoid disturbing the heat transfer; it will for example be based on the use of carbides such as SiC or of oxides such as Al203, - set at a temperature preferably below 200 ° C.

It is recalled here that the laying of the refractory bricks on the new cooling boxes is always accompanied by the application of a thin layer of cement between the bricks and the so-called inner face of the box, in order to seal the bricks and maximum heat transfer between the bricks and the box. Practical experience has also shown that certain types of refractory bricks are particularly capable of withstanding the mechanical, chemical and thermal stresses exerted in ovens such as blast furnaces. These are bricks based on alumina (Al203) or silicon carbide (SiC) having nitride or Sialon type bonds obtained by nitriding under a nitrogen atmosphere. It thus appeared that the thickness of the solid parts of the refractory bricks should preferably not be greater than the depth of penetration of nitrogen into the refractory for the time necessary for the firing of the bricks. In this regard, it has been found to be advantageous to provide perforations, possibly through holes, in bricks of this type, essentially intended to facilitate the penetration of nitrogen into the bricks during their firing; it is thus possible to increase the apparent volume of these bricks while retaining the advantages provided by nitriding.

According to an additional characteristic of the device of the invention, the solid parts of the refractory bricks will have a maximum thickness of between 80 mm and 150 mm, and preferably between 90 mm and 120 mm, depending on various factors such as the nature of the refractory, the degree of permeability of the bricks and their firing and nitriding conditions.

In addition to the advantages linked to nitriding, refractory bricks of smaller dimensions, or divided into several parts, make it possible to reduce the weight supported by the attachment means and to limit heterogeneous deformations due to differential thermal expansions within the bricks. In addition, larger bricks, such as the nitrided perforated bricks indicated above, each cover a larger part of the so-called inner face of the box and the complete lining thus comprises a smaller number of bricks, which allows to reduce the installation time of these bricks. The choice of the dimensions of the bricks to be used depends in particular on the state of the so-called inner face of the box to be covered.

The attached single figure shows, in section, an example of a refractory lining in accordance with the present invention.

A cooling box 1, traversed by a water circuit symbolized by entry and exit arrows, is fixed to a blast furnace shield 2 by known means, not shown. The so-called inner face of the box 1 is lined with refractory bricks 3, only one of which is shown entirely. In the so-called inner face of the box 1, a blind hole 4, with internal thread, has been drilled, into which a threaded rod 5 of refractory steel is screwed. Brick 3 is crossed by a hole. 6 which comprises two sections of different section separated by a shoulder 7, the so-called inside section of said hole being wider than the so-called outside section. In the example illustrated, this so-called outside section of the hole 6 has a length corresponding to approximately 35% of the thickness of the brick 3. The refractory brick 3 is engaged on the threaded rod 5, the latter having a length sufficient for lead into the so-called inner part of hole 6, i.e. beyond the shoulder 7 in the direction of the interior of the furnace 2. A locking washer 8 and a Belleville washer 9 made of refractory steel are placed on the threaded rod 5, then a tightening nut 10, also made of refractory steel , is screwed onto the threaded rod 5 to fix and hold in place the brick 3 on the box 1. The remaining volume of the so-called interior part of the hole 6 is then filled with a refractory mass 11, similar to that which fills the joints between two neighboring bricks.

In the present example, it has been considered that the so-called inner face of the box 1 had been damaged and had therefore lost its initial flatness. This degradation of the face, however, did not compromise the fixing of the threaded rod 5. The contact between the so-called degraded interior face of the box 1 and the brick 3 was restored here, by the application of a layer 12 of a refractory mass based on silicon carbide (SiC) with very low shrinkage. Thanks to the attachment and fixing means disclosed by the invention, the restoration of the so-called inner face of the box 1 could be carried out by simple cleaning of the damaged region, application of the refractory mass layer 12 and placement of new bricks, without dismantling the box.

Claims (12)

1. Protective lining in refractory bricks for a cooling box of an industrial oven, in which said box (1) is provided with attachment means comprising at least one threaded element and said refractory bricks (3) comprise means for attachment cooperating with said attachment means, characterized in that said attachment means comprise at least one rod (5) with external thread cooperating with a threaded element (4), and in that said attachment means comprise at least one hole (6) passing through said brick (3), corresponding to said resp. said threaded rod (s), and at least one clamping nut (10) engaged on the external thread of said, resp. of said threaded rod (s), said brick being engaged on said, resp. said rod (s) threaded (5) and being held in place on that (s) by said, resp. said tightening nut (s) (10). 2. protective lining according to claim 1, wherein said threaded element is constituted by an internal thread hole (4) formed in the so-called internal face of said box, characterized in that the rod with external thread (5) is screwed into said hole (4). 3. protective lining according to claim 1, in which said threaded element is constituted by a stud whose pointed end is planted in the so-called internal face of the box and whose other end is provided with a bearing with external thread, characterized in that the rod (5) has at its end an internal thread recess by which it is screwed onto said threaded seat of said piton. 4. Protective lining according to claim 1, wherein said threaded element consists of a stud whose pointed end is planted in the so-called inner face of the box and whose other end forms a socket with internal thread, characterized in that that said threaded rod is screwed into said socket. 5. protective lining according to claim 1, wherein said threaded element consists of a hole (4) with internal thread formed in the so-called internal face of said box (1), characterized in that said threaded rod (5) is fixed to the so-called inner face of the box by means of an assembly member which has a part provided with an external thread by which said assembly member is screwed into said hole and a part with internal thread by which said threaded rod is screwed onto said assembly member. 6. protective lining according to either of claims 1 to 5, characterized in that said hole (6) passing through said brick (3) has at least two sections which have different transverse dimensions and which are separated by a shoulder (7) intended to receive said tightening nut (10), the so-called inner section having a larger cross-section than the so-called outside section, and in that the said outside section has a length of between 25% and 40% the thickness of the brick (3). 7. Protective lining according to either of claims 1 to 6, characterized in that it comprises locking means (8, 9) arranged between said clamping nut (10) and its bearing surface. on said refractory brick (3), in particular on the shoulder (7). 8. Protective lining according to claim 7, characterized in that said locking means comprise a Belleville washer (9). 9. Protective lining according to either of claims 1 to 8, characterized in that the remaining volume of the so-called interior section of the hole (6) is filled with a refractory material (11). 10. Protective lining according to either of claims 1 to 9, characterized in that the threaded rod (5), the clamping nut (10) and the locking means (8, 9) are produced made of steel resistant to high temperatures and the action of certain gases such as hydrogen and carbon monoxide. 11. Protective lining according to either of claims 1 to 10, characterized in that it comprises a layer of refractory material (12) between the brick (3) and the so-called inner face of the box (1) . 12. Protective lining according to either of claims 1 to 11, characterized in that said refractory bricks have nitride or Sialon type connections obtained by nitriding.