DE270657C - - Google Patents

Description

IMPERIAL Λ

PATENT OFFICE.

PATENT LETTERING

- M 270657 CLASS 186. GROUP

GEORG v.TISCHENKO in ST. PETERSBURG.

a heatable cathode.

Patented in the German Empire on March 10, 1912.

The invention relates to a method and a device for electrolytic extraction of iron. The method is characterized in that the cathode during the entire duration of the electrolytic process is heated, in such a way that it during the electrolytic process has a higher temperature than the electrolyte, in particular the part of it that is in the

ίο located near the anode.

First of all, it should be noted that heatable cathodes are known, the heating of the same but so far it has only been used for a slight separation of the defeat that has been won bring about; accordingly, the cathode was heated only initially in the formation of the first layer.

A number of experiments have shown that the new process is very favorable Results are achieved because the higher temperature of the cathode causes that the dissociation of the solution and the precipitation of the iron on the cathode proceeds most favorably. On, the anode the lower temperature would lead to the formation of harmful sulfur and carbon compounds, that could be deposited on it, held back.

So there are the advantages of such a method that the heating of the Electrolytes result, but not their disadvantages in appearance.

The cathode can be heated from the outside or from the inside, depending on the Position that it assumes in the tub.

Hot air, hot water and preferably steam can be used for heating the purpose for which the cathode is made hollow.

The drawing shows three embodiments the invention.

Fig. Ι and 2 show a cathode on Perimeter of the tub is arranged and is therefore heated from the outside.

3 and 4 show a cathode arranged centrally in the form of a vertical cylinder, which is heated from the inside.

Fig. 5 shows a cathode in the form of a horizontal cylinder, which during work is rotatable, and FIG. 6 shows a vertical cross section through FIG. 5.

In the embodiment according to FIGS. 1 and 2, the cathode consists of a cylinder 13 with double walls 12, 13 resting on the bottom B of the tub. Tubes 5 and 6, by means of which the heating steam, lead into the interior of the space between the walls 12 and 13 is supplied and discharged. The pipe 5 almost reaches the bottom of the cylinder so that too much condensed water does not accumulate.

By means of the eyelets 7 and 8, the cathode can easily be lifted out of the bath will.

In the embodiment according to FIGS. 3 and 4, the cathode has been given a central position and 'is surrounded by the anode. The cathode is in this case as a vertically arranged, airtight cylinder formed.

The bottom 13 insulated by a cement layer and on the bottom The top side of the cylinder 12 provided with the base 13 has the one with the pole contact 11 and lifting ring 15 provided central rod (axis) 14. In the upper bottom of the cylinder lead tubes 5 and 6 for the introduction and discharge of the heating steam.

In the device according to FIGS. 5 and 6, the cathode consists of the horizontal hollow one Drum 12, the steam entering and exiting through the hollow parts of the axles will. This embodiment is particularly suitable for low rooms. The drum 12 rests in the camps 18.

The drum is rotatable on the axis 14, from which special cables g ^a , 9 *, g ^c etc. lead ^{in points ίο, ΐο Λ;} In this way, a uniform distribution of the current on the surface of the drum 12 is achieved. The drum is heated by means of steam. For this purpose, a precisely fitted steel tube 19 is mounted in the bearings, which is screwed with its end into the copper axis at 20. The steam flows through the tube 19, into the interior of the axle 20 and further through the tube 6 mounted in the end wall of the cylinder 17 into the interior of the drum and is then at the other end through the tube 5 and the second, similarly constructed bearing in passed a cooler.

To prevent the liquid from flowing out of the tub, and at the same time - Establishing airtight sealing of the steam line within the warehouse is a Hub 22 is screwed into the bearing bush 18, which surrounds the tube 19 tightly with a Metal base is provided.

A rubber hub connected to the steam line is screwed to the other end of the hub 22. The cylinder forming the cathode is rotated by the motor M by means of a steel belt or in some other way. Its number of revolutions is on average 1 per hour or more, depending on the current density. Both end walls 17, 17 of the cylinder are isolated from the outside by the concrete layer χ χ.

In the devices mentioned, specially designed anodes are used that it allow various small pieces of iron and waste, such as schnitzel, Use shavings, old horseshoes, sections of plate iron, boiler iron, bar iron, etc.

The construction of this anode both in and of itself, as well as in context with the listed cathodes does not form the subject of the present invention.

Claims (4)

Patent Claims: 1. Method for the electrowinning of iron using a heatable cathode, characterized in that the cathode during the the entire duration of the electrolytic process is heated in such a way that the temperature of the cathode is always higher than that of the electrolyte, in particular higher than the part of it that is near the anode. 2. Device with double-walled cathode which can be heated by steam or the like for carrying out the method according to claim i, characterized in that the The cathode in the form of a cylinder, polyhedron or the like surrounds the anode and can be easily removed from the electrolysis vessel is arranged. 3. Device with a heatable cathode according to claim 2, characterized by a cathode surrounded by the anode in the form of a vertically arranged, easily removable cylinder, to which the heating steam is expediently supplied and discharged through the upper floor. · 4. Device with a heatable cathode according to claim 2, characterized by a cathode in the form of a horizontally arranged, rotatable cylinder, to which the heating steam at one end of the Axis is fed and removed again at the other end of the axis. 1 sheet of drawings.