DE49612C - Channel arrangement for air and hot gases in standing steam boilers with filling shaft and heating pipes - Google Patents

Description

IMPERIAL

PATENT OFFICE.

- M 48612 -

CLASS 40: Metallurgy.

The apparatus, which is shown in the drawing in Fig. 1 in vertical section and in Fig. 2 in section according to MN of Fig. 1, consists of two shafts.

The first shaft A is an ordinary blast furnace or cupola shaft of circular, square, trapezoidal or rectangular cross-section, the height and other dimensions of which depend on the nature of the ores to be treated and on the amount of production that is to be achieved.

This shaft is fed with wind through a nozzle T (with or without water circulation in the same); the feeding is generally done with hot air. The upper part of the shaft A is closed by a funnel B equipped with a shut-off valve α or some other charging device which is arranged in such a way that the escape of gas is prevented. A loading tray b is arranged around this hopper.

After the usual blowing period, the mixture of ores, fluxes and charcoal or coke, which is necessary to obtain a good, somewhat basic slag that has been properly freed of noble metals, is placed in the feed hopper B.

The second, inclined shaft D, the coal shaft, which branches off from the hearth C of the first shaft A and whose lower opening extends from the hearth C to the melting zone of the first shaft A , is sufficiently inclined to prevent the fuel it contains from sinking. to facilitate; its cross-section is related to that of the vertical shaft A and is round or polygonal in shape; its length is chosen to be sufficiently great that the gases which pass through it leave the shaft at a temperature which is below the boiling point or below the boiling point. The evaporation point of the metal to be recovered.

This shaft, which is usually lengthened by a metal pipe E , is intended to condense the greater part of the metal vapors, especially for the zinc. to serve; for. With mercury, condensation can only be achieved by the path taken by the gases in the second shaft.

The upper mouth of this shaft D is closed by a funnel F (or other suitably equipped charging apparatus) which is provided with a shut-off valve c and is surrounded by a charging base d; this feeder is used to feed coal, charcoal, metallurgical coke or gas coke. Before the funnel respectively. below the same, the gases are discharged through the pipes G , which open into a dust box H , which is provided with a shut-off valve e . From here the gases pass into a dust washing box K and finally into the dust chamber L.

The inner wall of the inclined coal shaft D must be made of refractory materials, especially if it is zinc, and contain grooves or grooves that run transversely to the axis of the shaft or that are helically wound, narrowed inlet openings, which are shaped in this way.

are arranged so that they do not hinder the lowering of the coals too much, while the droplets of liquid metal collect and guide them through special channels α , which are connected to the nutlines r, to the collecting containers M.

Part of this shaft -D, notably the upper arched or curved part, may in certain cases be made of cast iron or wrought iron built or protected by a metallic armature.

The gases escaping from this shaft are replaced by suspended substances and vapors freed by the former pulling through suitable containers, boxes, dust chambers and wash basins, as stated above. These gases are then used for calcining and roasting furnaces, for heating air, for production harnessed by steam and for other purposes.

Mode of action. After the furnace has been blown, the ore-containing mixture is introduced into the ore feed hopper B and the coal into the coal feed hopper F , at regular intervals. The substances are melted and vaporized as soon as they get into the zone of the nozzles; the slag that forms flow into the hearth, from where it is tapped as usual; The non-volatile metals collect pure or in compounds on the floor of the stove and are tapped from there in the state of lead, cast iron food, raw stone (Lech); the volatile metals are drawn into the coal shaft D in vapor form by the gases drawn off by the collision with the one there. have a completely reducing effect on the existing fuel; the less volatile metals start to the walls of the coal duct D along fliefsen to where they encounter the r Nuthen which collect and redirect the same to the containers M; the most volatile parts and the dust are collected on the further route which the gases travel.

Needless to say, the ore shaft A may in certain cases be inclined, as may the coal shaft D, but that this arrangement, which is required for the second shaft, is not so for the first; Anthracite or certain bituminous coals, agglomerates, can also be used as fuel. Finally, if the solid fuel is rarer than petroleum and pitch, the consumption of the former can be reduced considerably by connecting the air nozzle T with suitable tubes to feed liquid or gaseous fuels and even some of the combustion gases into the stove. which result from the operation itself, to introduce; one could introduce hydrocarburized fuels into the reduction shaft in the same way. But in all cases there must be coal in the inclined shaft D.

The arrangement of the coal shaft D can be changed according to the circumstances; it can soon be built entirely from refractory materials, as in the drawing, which is necessary for large production, now made as a lower half-cylinder over part of its length and partly with one tinned or cast iron coat. Finally, the grooves can only be attached to a part of the cross-section; they are often only provided in the lower half of the cylinder or prism of the coal shaft mentioned.

Claims (1)

Patent claim: A continuously operating furnace with two shafts, one of which is vertical and the mixture of ores, fluxes and coal absorbs, while the other from below runs obliquely upwards, down between the hearth and the melting zone of the first shaft in the latter flows in and contains only coal, in such a way that those emerging from the melting zone Gases reducing gases are those which remove metal vapors, e.g. B. zinc vapors, in the sloping shaft along with it, whereupon these vapors settle in the sloping shaft condense and the liquid metal in grooves which are provided in the wall of this shaft are, flows in and from there to collection containers. For this purpose ι sheet of drawings.