SU39027A1 - A device for extracting gold from ores and sands using amalgamation - Google Patents

Description

In existing devices for the extraction of gold, gold-bearing material (pulp, splinters, etc.) enters through the chute into the funnel, from which the long tube enters the vessel filled with mercury under pressure, and from here all the material rises radially in all directions up the passage through the entire thickness of mercury; at the same time, the gold combines with the latter and the gold-derived amalgam settles to the bottom of the vessel. The presence of a funnel increases the useful path length for the passage of gold-bearing material through mercury, with gold particles undergoing hydrostatic pressure from all sides of mercury, in contrast to what happens on amalgation sheets, where mercury acts on gold only on one side and does not produce any pressure on gold. . In addition, as it becomes saturated, mercury becomes less active and can no longer catch gold, as if it were free. Finally, the mass of the smallest particles of gold moving in the water flow in the exploded state does not touch the sheets at all and goes to the tails. Thus, the percentage of gold capture falls by more than half.

In order to eliminate these drawbacks, a device is proposed in which, for better washing of the material between the vessel filled with water and the vessel with mercury

(8-9)

there is an annular space for the pulp that rises through the lumen of mercury. In addition, for a better effect on mercury pulp in the vessel walls, there are bends.

In the schematic drawing of FIG. 1 shows a device in longitudinal section; and FIG. 2, 3-part of the device in another embodiment.

The proposed device for extracting gold from ores is cast from a tube 9, which is lowered by its lower end into mercury poured into vessel 2 and serves to supply pulp under pressure. The vessel filled with water / forms with the vessel 2 an annular space 3 for the pulp rising through the layer of mercury. Tases 5 and 6 serve to catch the gold particles carried away by the stream.

The material enters the chute 8 in the JO funnel, from which the long tube 9 enters the vessel filled with mercury under pressure 2. Here, gold particles at the moment of contact of the pulp with mercury accelerate water particles and enter mercury, which presses on them all sides and, picking them up to themselves, sits on the bottom, and in its place is replaced by fresh mercury. This process can take a considerable time, since vessel 2 contains a fairly significant amount of mercury. Material released from the surface of mercury, freed from gold, is transferred through