DE2337304A1 - GAS OR OIL FIRED COUPLING OVEN - Google Patents

Description

The invention relates to a gas or oil-fired cupola furnace for the production of molten metal * Such cupolas are known. These gas- or oil-fired cupolas are used instead of the coke-fired Cupola provided wind box with blow pipes or tuyeres for supplying air to the mixture Arranged from coke and metal in the form of pig iron, scrap and slam burners, with only a small one Amount of coke needs to be added that. has an influence on the quality of the melt to be produced. Of the However, scrap steel aggregation poses great difficulties.

This fusion process is carried out by the one in the cupola shaft Processes occurring above the burners are controlled, while the melt on the furnace floor is below the burners accumulates and can be tapped through a tap hole. However, there is an improvement in this process aspired, where it from the unpublished Dutch patent application No. 71 O9986

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is known to have a superheater room below the burner that no air can enter and the one with lumps of coke, carbon compounds or other conductive, heat-resistant material is filled on which to ensure the melt the desired properties can drip down. According to the cited patent application, the superheater space heated by electrical energy, so that a separation between the melting process taking place above the burners, which determines the melting capacity of the cupola furnace, and the overheating process in the superheater room, which determines the quality of the melt, is possible.

In the case of the cupola furnace according to the invention, the problem of separating the two heat or heating sources is not a problem Application of electrical energy solved in a different way. According to the invention, this solution consists in the burner placed near the bottom of a superheater room with pieces or lumps of coke, carbon compounds, or other refractory compounds is filled, with the flames and combustion gases of the burner in a combustion chamber to make the thermally conductive Wall of the superheater space around and from the combustion chamber in a collecting box are passed over the superheater room is provided with openings leading to the interior of the furnace. Another feature of the invention consists in the fact that the burners are arranged approximately tangentially on the wall of the superheater space and that At least one spiral partition is provided in the combustion chamber to guide the flames and the combustion gases is.

In the following the invention is based on a schematic

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table drawing explained in more detail, which is a longitudinal section by an embodiment of a cupola according to the Invention shows.

In the embodiment shown in the drawing, a cupola furnace shaft 1 made of steel is used provided with a refractory lining or a lining 2, while at the upper end of this shaft a Loading opening _? is provided. In a certain Height are provided in the lining 2 around its circumference distributed openings 4 through which hot gases in the Can enter the shaft. Under the openings 4 is a superheater room 5 with a refractory but good thermal conductivity Wall 6 made of e.g. clay graphite (or alumina hamot) is provided, and the furnace floor is supported by a refractory Bottom 8 is formed, which is inclined towards a tap hole 9 for the melt.

A combustion chamber 10 is provided above the tapping hole 9 around the wall 6 of the superheater space 5, which combustion chamber 10 preferably communicates with at least one gas- or oil-fired burner 11, so to speak tangentially to the wall 6. The fuel is supplied via a line 12, and the air required for the combustion flows in via a line 1 ~ j> . The burner 11 lets its flame emerge around the wall 6, while a dividing wall 14, which is curved in a spiral in the combustion chamber 10, serves to guide the gases. At the top of the chamber there are channels 15 which lead to a collecting box with which the openings 4. The hot gases from the burner enter the shaft via these openings 4 in order to melt the charge introduced via the charging opening 3.

4 0 9 8 0 6/0800

BATH ORIGINAL

As a result of the conduction and radiation of heat, the superheater space 5 assumes a temperature which is above the temperature prevailing in the B&B outside the openings 4. However, the contents of the superheater space 5 cannot ignite because no air is supplied to it. The superheater space 5 is filled with coke, carbon compounds or other conductive, heat-resistant compounds, and the melt droplets of the charge flow over these lumps of material to the furnace floor 8, where the melt can be tapped through the tapping hole. All possible reactions between the compounds of the BsadickurTg and possibly the coke can take place in the superheater room 5, so that the quality of the melt can be controlled. Since reduction reactions can also take place in this space, it is possible to add a higher percentage of scrap steel so that cast steel can be produced if desired.

£ 09808/0800

Claims (2)

Claims 1. Gas or oil-fired cupola furnace for the production of molten metal, characterized in that that burners (11) are arranged near the bottom of a superheater space (5), the one with pieces or lumps of coke, carbon compounds, or other heat-resistant compounds is filled, the flames and combustion gases of the burner (11) in a combustion chamber (10) to the thermally conductive wall (6) of the superheater space around and are passed from the combustion chamber into a collecting box (16), which is connected to the superheater space above Oven interior leading openings (4) is provided. 2. Cupola according to claim 1, characterized in that the burner (11) are arranged approximately tangentially on the wall of the superheater space (5) and that in the ₍ combustion chamber (10) at least one spiral partition (14) for guiding the flames and the Combustion gases is provided. 409808/0800 Blank page