RU2080937C1 - Apparatus for fine gold trapping - Google Patents

Abstract

FIELD: natural minerals dressing, apparatus is used for fine gold trapping in particular. SUBSTANCE: apparatus has body made in the form of drum and is mounted with capability to turn for definite angle. Body has flanges and outer partitions forming row of tanks, in which magnetically active material is placed, that creates off-beat shell of dispersed particles. The shell is kept by magnetic field created by chain of magnetic members inside body, that are turning independently of the latter. Magnetic members are located in limits of 180 - 270 deg angle. In the case, flanges, body and outer partitions are made of magnetically neutral material. As a version, apparatus is mounted at the end of washing device. During pulp motion large and light particles are passing over the shell and heavy particles of gold are penetrating inside it. EFFECT: increased productivity. 2 dwg

Description

 The invention relates to mineral processing, in particular for trapping fine gold, but can be used in other sectors of the national economy, for example, for cleaning dispersed materials from metal or foreign particles.

 Known gateway structures for sand enrichment, in the case of which trapping elements are installed (Nevsky B.V. Enrichment of placers. M. Metallurgizdat, 1947, p. 114).

 The closest in technical essence are drum magnetic separators containing a housing in the form of a drum rotating on an axis, a chain of magnetic elements and a drive system (Handbook of ore dressing. Main processes. M. Nedra, 1983, p. 158).

 The disadvantage of these devices is the low degree of extraction of thin gold in streams of high power.

The essence of the invention lies in the fact that in a device containing a housing in the form of a drum rotating on an axis, a chain of magnetic elements and a drive system, the housing is equipped with flanges and external partitions, while the external partitions are connected to the flanges and are made as a body and flanges, from magnetically neutral material, the housing is mounted for rotation at a certain angle, in addition, the space between the housing, flanges and external partitions is filled with a coat of magnetically dispersed material, and magnetic the elements are located within an angle of 180-270 ^o , and the chain of magnetic elements is installed inside the housing with the possibility of rotation relative to the latter.

The ribs and external partitions form a bathtub in which a fur coat is held, held by the magnetic field from the magnetic elements. This fur coat is a trapping medium for thin gold. When the pulp passes through the device, large particles slip, like light ones, along the surface of the fur coat and are carried out of the zone into the dump product. Thin heavy particles, i.e. gold, penetrate between the dispersed particles of the fur coat and linger in it. As the fur coat is filled in the bath, the body rotates by a certain angle to introduce a bath with a clean fur coat into the working area. To withdraw concentrated fine gold with a fur coat from the device, the magnetic elements are located within an angle of 180-270 ^o and are fortified inside the case with the possibility of independent rotation relative to the latter. Since the material of the hull, flange and partitions can interfere with the release of the fur coat, its magnetoneutrality is provided. Since the device contains two independently rotating elements: a housing and a chain of magnetic elements, the process of accumulation of thin gold and the withdrawal of concentrate from the working zone are also independent and the working cycle is continuous.

 Figure 1 shows a sectional diagram of a device (the angle of the magnetic elements); in FIG. 2 layout diagram of the device in conjunction with a gateway.

The device consists of a drum casing 1, rotating on an axis 2, a chain of magnetic elements 3, a prefabricated hopper 4, an installation system 5 and a drive 6 with a remote control element 7. The housing 1 is equipped with flanges 8 and external partitions 9 connected to the flanges 8. In the space between them is placed a fur coat 10 of magnetite particles. Case 1, flanges 8 and partitions 9 are made of duralumin. The drive system 6 is equipped with a gear wheel with a stopper pin, to which a remote control element 7 (cable) is mounted, brought to the workplace of the monitor, which regulates and ensures the passage of enriched sands through the gateway 10, at the end of which using the installation system 5 made in the form of a fixed the sliding rod rotating on the axis 11, the housing 1 is strengthened. As a result, the drive system 6 provides intermittent cyclic rotation of the housing 1 by a certain angle (the total angle of rotation per shift from shooting to shooting went ha is 270 ^o ). A chain of magnetic elements 3 is installed inside the housing 1 with the possibility of independent rotation relative to the latter and locking, while the angle of the magnetic elements of this chain is 270 ^o .

 The device operates as follows.

 Before starting the flushing device, the housing 1 is installed so that the pulp flowing out of the gateway 10 falls onto the magnetite coat at the beginning of the chain of magnetic elements 3. Large particles roll over the fur coat, the lungs also slip over it without delay, and are carried outside the device. Fine gold, moving due to the large specific gravity closer to the bottom of the lock, gets on the fur coat and penetrates through it, being captured by magnetite particles and gradually accumulating in the baths between the partitions 9. After 60 minutes of operation, the monitor through the remote control 7 releases the housing 1, which the action of the flow force turns on one tooth of the gear wheel, while bathtubs between the partitions in which the magnetite coat is clean enter the working area.

 Before shooting gold from the locks, when the flushing device is stopped, the chain of magnetic elements 3 is deployed so that the gap in this circuit is at the bottom. After this, the case is gradually expanded, each part of the fur coat leaves the magnetic field and the fur coat with gold is unloaded into the hopper 4. After removing the entire fur coat, the device is loaded with a regenerated magnetite coat and the chain of magnetic elements is deployed to its original working position.

 The result is a high degree of extraction of fine gold from the pulp stream of high power.

Claims (1)

A device for collecting fine gold, characterized in that it includes a housing, a chain of magnetic elements and a drive system, while the housing is made with flanges and external partitions connected to the flanges, the housing, external partitions and flanges are made of magnetically neutral material, the housing is installed with the possibility rotation, the space between the housing, flanges and external partitions is filled with a coat of magnetically dispersed material, and the chain of magnetic elements is installed inside the housing with the possibility of Strongly rotation relative to the latter, and the magnetic elements are arranged within an angle of 180 270 ^o.

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