DE1160467B - Wall made of magnesite or chrome magnesite for Siemens-Martin ovens - Google Patents

Description

Magnesite or chrome magnesite wall for Siemens-Martin ovens The invention relates to an at least approximately vertical wall made of magnesite or chromium magnesite for Siemens-Martin ovens, the normal stones that are at least partially attached to hanging stones having, the normal stones are shorter than the hanging stones.

Vertical or almost vertical walls in Siemens-Martin ovens, such as the front wall or the hearth pillars wear out differently over their height. Very often the stress, and therefore the wear and tear, is greater at the base of the walls than in the upper part, which is why there is a risk of basic lining of such walls that they collapse prematurely as a result of a deeper hollowing out of the foot. This one Attempts have so far been made to eliminate the disadvantage in various ways. So are z. B. in such walls about 2 to 5 mm thick sheet metal at height intervals of 500 mm, for example, is inserted horizontally as a holding plate, which is attached to the reinforcement of the furnace. The sheet metal reacts at the high temperature of the Siemens-Martin furnace on the fire side of the masonry with the magnesite or chromium magnesite bricks, whereby Magnesium ferrite is formed, which forms a firm connection between the retaining plates and represents the stones. With these retaining plates, however, you can only do that directly fix two stone layers below and above the sheet metal in their position; the others Layers above or below are no longer held. You wanted with help hold all the stones in place by holding plates, so you would have to at least after every second, preferably insert a retaining plate after each stone inlay. This would include large quantities of sheet metal required, which are not affordable for reasons of cost; also affects one If the ratio of iron to magnesite bricks is too high, the durability is disadvantageous.

Another known measure to make vertical basic walls before To protect premature collapse, the wall with so-called suspended Running stones. Mostly stones are used for this, as they are common for suspended ceilings and whose stone length is equal to the wall thickness. The stones become horizontal and attached to the reinforcement on its suspension device. A wall out Hanging stones can wear out to a very large extent and also falls at very low levels Wall thickness not yet entered; however, it comes from the exclusive use of It is much more expensive to stand hanging stones than a wall made of normal stones or other cheap rectangular stones.

Finally, a number of vault constructions have become known, which also contain hanging stones and possibly sheet metal inlays. Since with the Arching every single stone must be held mechanically, the transmission would the vault construction on walls lead to unnecessary costs. With vault constructions In addition, the use of rectangular or normal stones is only possible if comparatively complicated holding devices are used, this has the advantage destroy again, which is to be achieved with the use of normal stones.

It is now a purpose of the invention to provide a wall for Siemens-Martin ovens to create, which on the one hand does not collapse even with very heavy wear and on the other hand is comparatively cheap. In particular, it is a purpose of the invention to create a wall for Siemens-Martin ovens, which in a significant percentage allows the use of so-called rectangular or normal stones.

The wall of the present invention is characterized in that known sheet metal inserts protrude beyond the cold wall outer surface on which Furnace reinforcement are attached and lie between two rows of normal bricks, as well as the fact that the rows of normal stones are connected to hanging stones that are attached to the sheet metal insert by means of brackets.

It can be seen that a large part of the stones used for the wall Rectangular or normal stones can be, which keeps the wall very cheap. About that In addition, the double function of the sheet metal inserts - once as a holding means for the Hanging stones and on the other hand as a binding agent for the rectangular stones - a significant cost saving. Since there are still very few retaining plates or Sheet metal inserts are required, so that the ratio of iron to magnesite is great is cheap, and only a small amount of fittings is required to attach the sheet metal inserts the wall construction according to the invention meets all technical requirements at low cost Requirements.

The invention will then be based on the drawing, for example are explained in more detail, wherein shows: F i g. 1 a furnace wall in perspective Representation and fig. 2 and 3 further exemplary embodiments in the form of sections through a furnace wall.

The in F i g. 1 oven wall shown consists of individual layers of rectangular normal stones and hanging stones. The rectangular stones or normal stones are hatched at the interface for identification. Own the hanging stones twice the length of a normal stone and are provided with hangers 3. The lowest The brick layer is, for example, a layer of normal bricks 1, with the wall thickness corresponds to the length of two normal or rectangular stones. Above the bottom layer Rectangular stones is a layer of hanging stones 2, over which again a layer of normal stones 4 is located. Above the normal stone layer there is a first sheet metal insert 5, which is made on the cold outer wall of the furnace the wall pops out as shown at 6. The sheet metal insert 5 is the same Way like the other sheet metal inserts attached to the furnace reinforcement in such a way that the insert cannot move in the horizontal plane. Part of this Furnace reinforcement is shown schematically at 7.

Above the sheet metal insert 5 there is another layer 8 with normal stones, above this layer another layer of hanging stones 9. The hanging stones in layers 2 and 9 are attached to the projection by means of the hangers 3 and by means of brackets 10, which each connect two hanging stones lying one above the other 6 of the sheet metal insert 5 attached. Since only an inward pull is exerted on the individual stones during operation, it is sufficient for the bracket 10 to rest against the outer edge of the sheet metal insert 6.

As shown in FIG. 1 can be seen, are also the other layers arranged in the same way as the lower layers provided with reference symbols. There are hanging stones on both sides of every sheet metal insert and on both sides of every layer the cheap rectangular stones, with two layers of hanging stones between two sheet metal inserts and three layers of rectangular stones. The hanging stones are covered with a sheet metal jacket surround.

All stones are made of magnesite or chrome magnesite. In the Warming combines the iron of the sheet metal inlays and those surrounding the hanging stones Sheathing with the magnesite or chromium magnesite of the normal stones with the formation of #, 1wniaesiumferrit, so that the components of the masonry are connected to one another are.

With the simplest means it is thus achieved that the furnace wall up to can be worn to a very small thickness without the wall collapsing. When the furnace wall is about halfway up, there is still no need to fear that the remaining parts of the rectangular stones facing the inside of the furnace fall into the furnace, because they are held by the neighboring hanging stones or the neighboring sheet metal insert will. The advantages mentioned also apply if the masonry on his lower end is consumed much more than at its upper end; the masonry can be used up to a wall thickness of a few centimeters.

The F i g. 2 and 3 show. further examples of the arrangement of the stones and the sheet metal inserts, in the same way as in FIG. 1 the rectangular stones are hatched for identification.

At F i g. 2, a layer of normal bricks 14 and 18 rests on each sheet metal insert 15, which is adjoined further outside by a layer of hanging bars 12 and 19 . The hangers 13 of the hanging stones are connected to one another by a bracket 20 which is guided over the end 16 of the sheet metal insert 15 protruding on the cold side of the furnace wall. The hanging stones 12 and 19 cannot slide into the interior of the furnace, and neither can the rectangular stones connected to the hanging stones by magnesium ferrite.

From Fig. 2 can be seen. that the outermost edges of the sheet metal inserts have a reinforcement 21. This reinforcement gives the sheet metal and thus the whole Masonry a mechanical stiffening, which is desirable for reasons of strength. The strips emerging from the cold furnace wall cause a certain stiffening of the sheet metal inserts, however, even without the reinforcement 21. The stiffening effect comes in particular because the protruding parts 16 of the sheet metal inserts a bending stress of the greatest geometrical moment of inertia directed towards the interior of the furnace oppose.

The in F i g. 3 furnace wall shown (in section) has between two Sheet metal inserts 25 each have a layer of rectangular stones 24 or 28, with a layer of hanging stones 22 is located. Also in the embodiment of FIG. 3 is a reinforcement of the Inserts protruding from the wall are provided on the edge side of the wall.

Of course, a number of other arrangements are possible, In any case, the aim is to have at least as many layers of rectangular stones are provided. like layers of hanging stones.

Claims (5)

Claims: 1. At least approximately vertical wall made of magnesite or chrome magnesite for Siemens-Martin ovens with at least some hanging stones (9) adjacent normal stones (4. 8), which are shorter than the hanging stones (9), thereby characterized in that known sheet metal inserts (5) over the cold wall outer surface protrude (6). are attached to the furnace reinforcement (7) and between two rows of normal stones (4, 8) lie, as well as thereby. that there are normal stones in the rows (4. 8) Connect the hanging stones (9) that are attached to the sheet metal insert by means of brackets (10) (5. 6) are attached. 2. Wall according to claim 1, characterized. that the on the cold outside protruding parts of the sheet metal inserts are reinforced. 3. Wall according to claim 1, characterized in that the hanging stones by means of pairs one Bracket, which is guided over the outer edge of a sheet metal insert, are attached. 4. Wall according to claim 1, characterized by the following layers between two adjacent ones Sheet metal inlays: rectangular stones, hanging stones, rectangular stones, hanging stones, rectangular stones. 5. Wall according to claim 1, characterized in that the hanging stones have twice the length of the rectangular stones, so that the layers of rectangular stones are made up of twice as many individual stones with the same width as the layers of hanging stones. Publications considered: German Auslegeschriften No. 1 047 362, 1 055 027, 1052 045.