DE1162390B - Blast furnace masonry - Google Patents

Description

Blast furnace masonry In order to largely prevent breakthroughs, there is the masonry of blast furnaces, especially where there is liquid slag and liquid iron comes into contact, generally from two closely spaced Peel. The stones are often offset from one another from shell to shell, to avoid continuous joints. Between the masonry and the tank is still a loose backfill material introduced, which the expansion when the furnace is heated up of the masonry. The backfill compound is compressed in the process.

In such a masonry, the storage areas and are appropriate The side surfaces as well as the abutting head surfaces of all stones are ground, to get the tightest possible joints. Such is a considerable amount of work tied together.

In practice it has also been found that it is practically not it is possible to compress the backfill compound when it is introduced to such an extent that it when the blast furnace is heated up, the thermal expansion of the masonry is still just taking up, because the thermal expansion of the masonry cannot be determined with certainty. If the backfill compound is compressed too much when it is introduced, it can occur when heating up no longer absorb the thermal expansion of the masonry, which has the consequence that on unwanted pressure is exerted on the tank. If the backfill material is used Bringing in is not so compacted that it just barely allows the thermal expansion of the masonry can accommodate without an undesirable pressure is exerted on the tank, increases the insulating effect of the backfill compound in an undesirable manner, whereby the Heat dissipation from the masonry is hindered, which in turn leads to faster Wear of the masonry leads.

Penetrates into a blast furnace in which the backfill is the last Layer is introduced in front of the armor, providing liquid iron through the masonry In addition, the backfill mass does not give the penetrating iron any appreciable Resistance.

In order to reduce the risk of a breakthrough, it has already been suggested that insert a layer of rammed earth between two masonry shells. There one If such a layer is seamless, a breakthrough can be delayed, but it is once the liquid iron has penetrated through this layer or is in the course of the During operation, this layer is worn out with the masonry shell in front of it the breakthrough is no longer hindered. From the German patent specification 867 552 is it is known to direct the load-bearing masonry of a blast furnace from carbon bricks to put on the tank. According to this patent specification it is known that it is also possible between the armor and the supporting masonry made of carbon bricks another one to arrange a layer of firebricks adjacent to the armor and between carbon masonry and fireclay brickwork to firmly pound a layer of granular carbon. In both cases, when heating the furnace, the armor must cover the entire extent of the Pick up masonry, which can result in considerable damage to the tank.

According to a further embodiment of this patent specification it is then still possible, a layer of chunks of fireclay between the armor and the fireclay masonry bring in. Such a blast furnace then has those already mentioned above Disadvantages on.

According to the documents laid out in German patent application p 22436 VI a / 18 a D it is with a blast furnace, the load-bearing masonry in rest and frame is tamped from carbon mass, known to the armor a layer of porous To provide stones in which the tar vapors that form during heating are deposited, and to provide a layer of incombustible stones on the inside, which Prevent the carbon mass from burning when heating. The one on the tank Adjacent layer of porous stones has an insulating effect and prevents effective Cooling of the masonry, which increases wear. The one provided inside Layer of non-combustible stones is not a load-bearing masonry and only serves the protection of the rammed earth when heating up. Such a layer comes in handy in All blast furnaces where the bottom, rest and frame are made of carbon.

According to the invention, a layer of stone is now on the armor thermally conductive stones and in front of this at a certain distance the actual masonry erected in the usual way. The stone layer on the tank should be as close as possible to this. The space between the adjacent to the tank The stone layer and the actual masonry is filled with backfill. the The stone layer on the armor should not be less than 15 cm thick. Appropriate it has a thickness of 15 to 30 cm. If necessary, it can also be stronger be.

The thickness of the layer of stone lying between the armor and the actual masonry introduced layer of backfill depending on the size of the furnace, the presumed thermal expansion of the masonry and the compression selected for the backfill compound. The layer is said to be so strong be that with a given pre-compaction they still just have the thermal expansion of the masonry can absorb without an undesirable pressure is exerted on the tank.

The stone layer on the armor has a much better one Thermal conductivity as a layer of backfill compound lying on the armor. The cooling therefore works deeper through the armor into the brickwork. Penetrates in one such a blast furnace liquid iron through the masonry down to the layer of backfill compound, it freezes in this layer and no longer penetrates to the tank. the There is practically no risk of a breakthrough.

It is not necessary that over the entire height of the blast furnace a layer of stone is arranged on the armor. It is enough if the blast furnace in particular below the wind forms and advantageously including the bottom one according to the invention Has brick lining.

The layer adjacent to the armor is expediently made of the same Stones erected like the actual masonry, preferably from carbon bricks.

One possible embodiment of the invention is shown in the drawing a cross-section through the floor and frame of the blast furnace. In the drawing 1 is the floor of the blast furnace, 2 the frame, 3 the actual frame masonry, 4 a wind shape, 5 the tank. On the armor 5 is below the wind form 4 a Stone layer 6 close to it. The between this stone layer 6 and the frame or Floor masonry 1, 3 remaining space 7 is filled with loose backfill compound.

Claims (5)

Claims: 1. Lining for blast furnaces, consisting of one stone layer adjacent to the armor, an intermediate layer and the actual load-bearing Masonry, characterized in that the stone layer lying against the armor consists of Stones of high thermal conductivity and the intermediate layer of a loose Mass exists. 2. Lining according to claim 1, characterized in that the dem The stone layer adjacent to the armor consists of carbon stones. 3. Refurbishment claims 1 and 2, characterized in that the stone layer adjacent to the armor 15 to 30 cm thick. 4. Lining according to claims 1 to 3, characterized in that that it extends only to the floor and the frame of the blast furnace. 5. Brick lining according to claims 1 to 4, characterized in that they are only below the wind forms is appropriate. In. Considered publications: German patent application p 22436 VI a l 18 aD (published November 30, 1950); German patent no. 867 552.