DE38774C - Innovation in apparatus for the treatment of metals, alloys, especially gold-containing compounds with nascent chlorine produced by electrolysis - Google Patents

Description

IMPERIAL

PATENT OFFICE.

CLASS 4O: Metallurgy.

The purpose of this invention is to treat metals, alloys and ores, especially gold-containing compounds, by electrolysis in an apparatus in which chlorine and oxygen are present in statu nascendi , whereby the metals are dissolved on the positive pole and deposited thereon on the negative pole .

The most powerful solvent one can find for the extraction of gold and many other things Metal can produce on a large scale is chlorine, and this can easily be done by electrolytic Decomposition of a solution of table salt can be obtained. Chlorine and oxygen become at the anode, and if this pole is made of metal it is easily dissolved and the dissolved metal is deposited on the cathode; however, if the anode is made of carbon, so every metal particle, which with it during the electrolysis in Contact comes, also quickly resolved.

Gold ores containing antimony, sulfur, arsenic, tellurium, bismuth and many other compounds contain, are referred to as strict liquid and generally also called pyrite. Your treatment presents great difficulties, and so far it has always been necessary to roast them or to calcine to oxidize sulfur, arsenic, antimony, etc., and so that To release gold.

This becomes superfluous according to the new method, since chlorine and oxygen in statu nascendi are the means of oxidizing the pyrites and releasing gold, which is then converted into chlorine gold; if you rely on it, as in our patent no. 31105, if lime is added, the gold is deposited in the cathode in the form of a black sludge.

The apparatus used to carry out the above-mentioned procedure is on the enclosed sheet Drawing shown in detail.

Fig. Ι is a side view of the complete apparatus,

Fig. 2 is an end view of the same,

Fig. 3 is a cross section thereof,

Figure 4 shows a section through the shaft, the holes and the inner screw.

α is the drum, which is expediently made of wood; If metal is chosen, the inside of the drum must be carefully insulated. It contains a number of carbon rods or plates as anodes, or the inside can be completely clad with carbon or graphite.

It has been found to be expedient to arrange the coals horizontally inside the drum, as illustrated at b, FIG. 3, and to avoid leakage at the protruding ends, rubber solution or a firm glue can be used. The ends of the coals are made metallic by e.g. B. either let a metal precipitate on the same or soldered on the same wires. The individual coals are connected to one another by a metal band c, FIGS. 1 and 2, which is soldered or screwed to the protruding ends of the coals b. You can put an or in the drum

insert several rows of carbon rods, which are then to be connected appropriately. The dimensions of the drum depend on the company in question; if the drum is large, the coals can be introduced at both ends. The drum sits on a hollow shaft d made of copper, iron or some other suitable metal. That part of the shaft which lies within the drum is provided with numerous holes e, Fig. 4, which are so distributed that the load-bearing capacity of the shaft is not questioned. After careful insulation of the outer surface of the shaft, asbestos cloth is placed around it, which covers the holes; In the same way one can also clothe all other parts of the same which are exposed to the action of the solution in the drum. It is advisable to glue the asbestos fabric onto the drum shaft. Instead of asbestos fabric, you can also use slag wool or a material for clothing that allows the current to flow through it, but holds back particles of the squeezed ores. The drum is fastened to the shaft in any suitable way, using rubber washers to prevent leakage. The edges of the asbestos fabric are held on the drum by strips or the fabric is attached to the shaft by rings of hard rubber.

The ends of the hollow shaft go through stuffing boxes f in the iron bearing brackets or containers g.

A gear h is mounted on the drum, which is in engagement with a drive i , which is driven by a disk /; is set in motion.

In the hollow shaft an Archimedean screw /, Fig. 4, is arranged for the purpose of bringing the solution into circulation when the drum is rotated and, after the ¹ or both carriers, to remove the sludge which is in the Wave has accumulated. The screw can be the same length as the shaft. Both containers g are connected by a pipe m which is wide enough to allow free circulation of the solution. The anode b, Figs. 2 and 3, consists of a number of coals which are mounted in the drum in one or more rows. Coals are used for the simple reason that metals would be attacked and dissolved immediately by the chlorine. The electric current is fed to the coals by brushes η or rollers, which rest on the metal strip c and are fastened in consoles ο the carrier g. Particular care must be taken with the insulation of the brushes; they are connected at ρ by wire q to one pole of the source of electricity, while the other pole is connected to the shaft or bearing supports at r, so that both the shaft and the supports form the negative pole of the apparatus. After the drum is set in motion and the current is switched on, it is fed through wire q to the brushes η and passes through the belt c to the coals b, which form the anode; The current then goes through the electrolyte to the shaft d, the bearing supports g and back to the electricity source.

Ordinary salt water is used as the electrolyte. The drum is charged with the ores through openings s , the tight closure of which is brought about by a rubber ring insert. The metals in the pulverized ores are constantly thrown against the anodes when the drum is rotating, and in this way often themselves form part of the anode, and thereby come into very intimate contact with the chlorine and oxygen which are formed at the positive pole brought and quickly resolved. The metals in solution are electrolytically deposited in the shaft, which nevertheless forms the negative pole, in the form of a black sludge, which is fed from here through the Archimedean screw to the containers g to be collected and melted.

It can be fixed bearings and the shaft of the drum and the latter to the W ^r elle rotate; however, it is advisable to turn the shaft as well, in order to cause the sludge to be discharged to the containers through the Archimedean screw.

Several apparatuses of the construction described can be switched into the circuit will.

In Fig. 5, 6 and 7 a construction is indicated where the shaft inside the drum no longer applies.

In these figures, Figure is a drum containing the coal, and in each side wall a opening grofse t, 6, has. the larger the opening is chosen, the lower the resistance of the apparatus. The opening is completely covered with asbestos fabric, over which the flange of the shaft dd is screwed and sealed to the side walls of the drum (which, according to the illustration, has received a bell-shaped or funnel-shaped shape). This shaft also goes through stuffing boxes f into the container g. After the drum has been charged and set in rotation, the current, after having entered the drum, goes through the coals and leaves, as in the case of the apparatus just explained

the drum again through the bell-shaped or funnel-shaped ends of the shafts, whereby the Asbestos fabric separates the two poles.

The chlorine gold is deposited in the shaft and in the containers g , which all form the negative pole. Hydrogen is generated by decomposition of water at the negative pole, and to this hydrogen to provide trigger and to avoid polarization, then to allow the removal of accumulated sludge, are provided with valves and provided apertures provided in the bell, which upon reaching open automatically at a certain point and allow the escape of hydrogen, but close again automatically after passing the point.

Instead of the bell-shaped ends, which are passed through stuffing boxes and in the containers open, the drum can simply have a large iron hood on each side be provided, which serves as a cathode. Asbestos is attached between the iron and the drum to keep the coals off to separate the iron, which the latter forms the negative pole. The drum can then rest on four wheels, and a suitable transmission is provided through which the drum is set in rotation. Of course, facilities must also be taken here to get rid of the hydrogen.

Claims (3)

Patent Claims: For the treatment of metals, alloys, especially gold-containing compounds with nascent chlorine generated by electrolysis: ι. an apparatus consisting of a rotatable drum a containing the coals b forming the positive pole and mounted on a hollow shaft d provided with holes e , the ends of which extend into containers g which form the cathodes, with between the coals b and the shaft d asbestos or the like is inserted in order to prevent the ores accommodated in the drum a from getting into the shaft d while the metals dissolved by electrolysis are fed into this shaft and deposited there; 2. the arrangement of a transport screw / in the shaft d to discharge the metals deposited in the same into the containers g as soon as the drum rotates and to cause a circulation of the applied electrolyte through the apparatus; 3. The connection of the coals b by metal rods or bands c on which brushes or rollers η rest and are connected to one pole of the dynamo or other source of electricity, while the shaft d or the container g are connected to the other pole of the source of electricity are. 1 sheet of drawings.