DE836402C - Furnace for reducing ores - Google Patents

Description

Furnace for reducing ores To R @, reducing ores are multiple Furnace is used in reduction rooms, the walls of which are made of ceramic refractory materials are constructed. Such ovens are designed for both continuous and intermittent operation Operation in use.

Hei the furnace with steady operation through (let continuous migration of the goods consisting of a mixture of ore and reducing substances, <read dermal was molded prior to its filling into compacts, the walls of the reduction room ground off, and the inevitable abrasion of the pieces of the load settles stuck anywhere on the walls. That at these points from the set However, abrasion formed by the reduction rivet infiltrates the refractory Wall stones, as a result of which they are quickly destroyed. The infiltration is particularly effective harmful with iron, as this wears down the refractory stones in a very short time, z. B. in the reduction of fine-grain magnesite, which is associated with the reducing substances, in particular coke, formed into pellets, is smelted.

The walls of the reduction room suffer in the interrupted furnace not under grinding, because: the respective Beschiokung during the reduction process mooing in the room. Any damage to the walls can occur be determined and remedied after each discharge of the load. On the walls Attached abrasion can be repelled after each emptying of the reduction chamber. In particular, the sole of the reduction space, on which the dust-like abrasion falls, before each new cover getting cleaned. As a result of possible permanent observation of the condition of the reduction room and the possibility the removal of the fixed abrasion after each discharge is included in the furnace Interrupted operation is superior in many cases to furnaces with continuous operation.

But what is to be done is the fine-grained one lying on the bottom of the reduction space Abrasion often reduced faster than the rest of the, mostly lumpy, loading. That formed metal then acts on the refractory for a longer period of time at the operating temperature Stones of the ground and the infiltration of the metal that takes place into the stones destroys this. If only the destruction with every load occurs at individual points on the ground, it still results after a number of charges partly considerable damage. This disadvantage of interrupted work Eliminating furnace is the purpose of the invention.

The invention consists in that the externally heated reduction room, which is usually a narrow chamber with large heated side surfaces at the bottom At the end of the day, there is also an extra heated room. The reduction space persists the invention therefore consists of two rooms, a lower uribeheizten room of less Height and a floor of the reduction room immediately above it. The abrasion is not reduced here, and no metal infiltration can occur in the soil stones or enter the lowest wall stones.

The originally heated room is created by the fact that the external heating used heating flues are not placed on the lower part of the chamber. 1Tan can too Redesign existing fully-walled heated furnace within the meaning of the invention by The heating flues located on the floor of the reduction room are shut down by bricking up. Even if the originally heated part of the room heats through conduction in the stones from the heated Part of the room receives and also heat from the load lying in the heated part of the room penetrates into the originally heated part of the room, the inflowing heat is not sufficient, in order to reduce the abrasion inside. The unreduced When the room is unloaded, it is also carried out of the chamber.

A sharp distinction between reduced and non-reduced Good, as it should be the abrasion, to bring about and mainly to avoid that with a small amount of abrasion the non-reduction also extends into the affects lower layers of the load to be reduced, is after the Invention built a grate between the two parts of the room. The grate separates the heated by the originally heated part of the room. The abrasion falls through the grate gaps the heated in the originally heated room. He can here from several loads accumulated and removed by pulling out or sliding out to an outside of the oven will. The height of the preheated part of the reduction room should be half its width do not exceed.

The grate can still be in the heating zone so that the Rust resting pieces of the charge can also be completely reduced. Appropriate the grate is formed with narrow gaps and the gaps are in the discharge direction of'; Good arranged. The loading can then not get into the depressions Insert so tightly that sliding is prevented during discharge.

Two embodiments of the invention are shown schematically in the drawing shown.

Fig. I shows a horizontal reduction room in a schematic Cross-section; from Fig. 2 and 3 is a sloping reduction room, too shown schematically.

In Fig. I the horizontal reduction chamber i lies between the with vertical heating flues equipped heating walls 2 and 3. The heating wall insole .4 is above the chamber sole 5. The difference 6 in the altitude of the two is about the Half of the chamber width 7. 8 are filling holes for entering the load. 9 and io represent the fuel feeds to the heating flues of the heating walls: 2 and 3 represent.

In Fig. 2 i i means the reduction chamber which is inclined here. 12 and 13 are the heating walls, which consist of inclined and vertical heating flues 14 to 19 exist. 2o is the one between the heated room part 21 and the originally heated room Room part 22 lying grate. The heating wall sole 23, which here is the same as the sole of the lowest Heating flue 15 is at the level of the lower surface of the grate 2o. The amount of through the grate delimited uribe-heated part of the room corresponds to about half the width of the chamber. 24 is the filling opening for loading.

Claims (5)

PATENT CLAIMS: i. Furnace for reducing ores in uninterrupted operation with an externally heated reduction room, characterized in that a heated room part is arranged at the bottom of the heated reduction room. 2. Oven according to claim i, characterized in that between the heated and preheated part of the reduction space a grate is arranged. 3. Oven according to claim i and 2, characterized in that that the bottom of the grate is level with the heating wall sole. 4. Oven according to claim i to 3, characterized in that the height of the uribeheizten part of the room is about Half of the chamber width. 5. Furnace according to claim i to 4, characterized in that that the long sides of the grate gaps lie in the discharge direction of the charge.