NO744125L - - Google Patents

Description

"Procedure and device for enriching mixtures of solid materials according to the density of the constituents".

The invention relates to a method and a suitable device for carrying out the method for dry enrichment of mixtures of solid materials depending on the density of the constituents during the settling process with air as a separation medium, in which the layering of the settling mass or layer takes place, by means of a pulsating airflow that penetrates the settling layer and a swinging settling load carrier. The invention also relates to a device by which the heavy material in the mixture of solid material is emptied through a grain layer arranged on the sediment carrier and the sediment carrier, below which, the grain layer due to the sediment carrier

clean fluctuations are subjected to a pick-up.

By the known methods for the enrichment of mixtures

of solid materials according to the density of the constituents, the layering is achieved according to the density of the ore-bearing rock by passing a separation medium, which pulsates, from below upwards through a layer of mixed material which forms the sedimentation layer. With the wet methods, this takes place either by lowering a sieve coated with the settling material in a steady rhythm into a container of stagnant water, or by having the water, set in a rocking motion by a piston, oscillate up and down through a stationary settling sieve . In the dry methods, where air serves as the separation medium, stationary or movable, particularly oscillating settling sieves are used, on which density stratification takes place under the influence of a continuously produced, by special circulating pulse valves in an air flow interrupted at regular intervals.

Another related group of methods, for the dry enrichment of mixtures of solid materials, to the sink and float methods of wet enrichment, use a relatively finely divided solid material as an auxiliary medium, the density of which is usually greater than the density of the lightest component in the for separation determined material-mixture,. and which, through a continuously fed separation medium, is brought into a vortex-like current. The properties of such a floating layer roughly correspond to those of a heavy suspension in the wet methods.

Directly opposite. the wet methods have all known dry methods, they have the advantage that subsequent drying is saved, that water-sensitive raw materials can also be processed and that they can also be used

in water-poor tracts. A disadvantage, however, is their poor separation ability, which must be traced back, among other things, to inadequate organs for utilizing the implemented layering, especially where goods with a very small grain diameter are concerned.

With the wet settling methods for the enrichment of finer mixtures of solid materials, it has apparently become known that

a stationary settling layer is provided with a layer of coarse material

so-called grain layer - with a grain size of approximately twice the mesh width at

with those grains in the agricultural estate which. must be emptied. With the correct setting, the sedimentation process will become completely normal, during which the ball layer acts as a heavy suspension that allows the light goods to float

upwards, and the heavy goods sink downwards. In the case of fine feed material, a distinct separation is thereby also achieved.

However, this method, which is referred to as the see-through method, does not work in the case of dry application with e.g. air as separation medium. To producebg maintain a condition in the ball layer which. resembles a heavy suspension, a high flow rate of the air - the pick-up rate - is necessary. If now feed ial mixtures. with widely different density values of the components, as is the case, for example, when the mixture of copper and insulating material obtained by splitting old cables is to be separated, it is not possible to achieve a sufficient loosening of the grain layer with air alone, unless settling -the goods' hover speed is achieved in advance. In other words, this means that the settling material is blown upwards from the settling layer already at air velocities which are enormously much lower than the loosening speed of the grain layer.

The invention is to provide a method which enables the enrichment of mixtures of solid materials according to the density of the constituents during the settling process with air as a separation medium, during which the layering of the settling layer is to take place with the help of a pulsating air flow that penetrates the settling layer and an oscillating settling material carrier . The invention is characterized by the fact that the heavy goods in the mixture of the solid material are emptied across a layer of grain placed on the settling material carrier and the settling material carrier, under which the grain layer is subjected to a loosening ring due to the fluctuations of the settling material carrier, as well as a suitable device for carrying out the method according to the invention.

All known, preferably mechanical, devices are suitable for producing the settling cargo carrier's oscillations, and it has been shown that even a relatively small loosening is sufficient to, together with the settling air, produce an effect that can be compared to a heavy suspension. The part of the material with the higher density that is to be sorted out through the settling process with pulsating air, downwards from the settling layer, can, as its specific weight is greater than that of the grain layer, sink down through this and finally be emptied across the settling material carrier, while the part of the material that has a lower density is prevented from sink through the grain layer acting as a barrier layer.

The loosening of the grain layer, which is produced thanks to the oscillating settling material carrier, also has the advantage that both the pulse frequency and intensity of the settling air flow as well as the degree of loosening of the grain layer can be set independently of each other so that an exact adaptation to the existing settling material is possible.

This method is characterized by the fact that the pulsating settling air flow that penetrates the settling layer and the settling material carrier is additionally superimposed on a constant 'air flow.' This air flow serves to reinforce the opening of the settling layer produced by the pulsating settling air flow, and thus to increase the mutual mobility of the individual parts inside the settling layer, so that the layering, depending on the density, can be initiated faster and more completely.

Practices on the grain layer's loosening. the complementary air-flow practically no influence, as its strength is kept very small.

However, it is an advantage to make the supplementary air flow adjustable with respect to the strength, so that an optimal adaptation to the mixture determined for separation. solid material is made possible.

In experiments with a settling machine designed in accordance with the invention, it has been shown, when processing particularly easily liquefiable mixtures of solid material, that by using the constant air flow, the special devices for producing the pulsation of the settling air can be dispensed with, as it The pulsation produced by the oscillating settling material carrier alone is sufficient to produce the stratification of the settling layer according to the density of the constituents. In these cases, a particularly simple mechanical structure is thus achieved.

As a device for carrying out the method according to the invention, an air settling machine is proposed in which the settling material carrier is vertically and/or horizontally movable and is provided with a drive device to produce the swinging movement, under which a grain layer is arranged on the settling material carrier.

The settling goods carrier can be designed as a perforated plate, screening cloth or grid which is advantageously provided with slit-shaped through-openings, which promote the emptying of the heavy goods. Especially in the enrichment of cable waste, in which copper - often in the form of relatively long wires - must be separated from insulating material, the use of slot sieves causes a strong acceleration of the emptying process.

In view of a smaller loosening of the grain layer, it may be practical for the grain layer to consist of spherical bodies, whose greater mobility results from lower adhesion forces. significantly, it supports less enlightenment. A further advantage of the separation process is achieved by using in the grain layer a material whose density lies between the density of the heavy material and the density of the light material.

The invention shall be described below with reference to the attached drawings. The drawings show: Fig. 1 schematically an air setting machine for carrying out the method according to the invention, and Fig. 2. a special version of an air setting machine

for carrying out the method according to the invention.

As shown in fig. 1 is. that in the lower part. of. a container 1 provided with a set cargo carrier. 2, which is here designed as a slit sieve and is. movable in horizontal direction. A vibrator 3 sets the settlement cargo carrier 2 via a coupling rod 4 into horizontal oscillations. A loose layer of e.g. glass balls, a grain layer 5. Due to the vibrating settling material carrier 2, the grain layer 5 is set in a loosened state, whereby the grain layer in interaction with the settling air acquires properties similar to a heavy suspension, i.e. the grain layer forms a barrier layer for the light material, while it releases, through the heavy goods. The settling material is supplied to the machine in portions at the arrow 7, and forms a settling layer 8 inside the machine. A fan 9 supplies the necessary settling air 6, which is introduced under the settling material carrier 2 into an emptying chamber 10 for the heavy material 11, below which a rotating pulse valve 12 in a supply line 13 ensures an intermittent air flow. A sluice 14 serves to shut off air from the emptying chamber 10, and as an emptying device for the heavy goods 11 sorted out during the settling process and separated from the settling layer 8 through the grain layer 5 and the settling goods carrier 2. The light goods flow freely over one. dam 16, which is adjustable in height. The air 17 emerging from the settling layer 8 is sucked out via a jacket 18 and supplied here. dust separator not shown.

An air setting machine of the type described. stands out, with a surprisingly good separation ability. From a mixture of e.g. copper and insulation material with a copper content of only approx. 3. percentage by weight the copper could be separated to 95%, where-. under the concentrate contained approx. 99% pure copper.

Fig. 2 shows a special embodiment of an air setting machine. in which both function and structure match the form of execution according to fig. 1,. however, with the exception that the rotary pulse valve 12 has been replaced with a throttle valve 12' that can be locked in any position, which is arranged in the supply line 13 and which determines the strength of the settling air flow. Special devices for producing a pulsation are not required here, as the pulsation produced through the vibrating sediment carrier 2 alone produces layering of the sediment layer depending on the density of the constituents.

Claims (11)

1. Method for dry enrichment of mixtures of solid materials according to density during the settling process, in which the layering of the settling layer takes place with the help of a pulsating air flow that penetrates the settling layer and oscillating settling material carriers, characterized in that the heavy material in the mixture of the solid material is emptied across a grain layer lying on the settling material carrier and the settling material carrier, below which, due to the settling material carrier's oscillations, the grain layer is subjected to a loosening ring. 2. Method as specified in claim 1, characterized in that the pulse frequency and intensity of the settling air flow as well as the degree of loosening of the grain layer are adjustable independently of each other. ■ 3. Procedure as specified in claim 1 or 2, characterized in that the pulsating settling air flow is superimposed on a constant air flow. 4. Method as stated in claim 3, characterized in that the complementary constant airflow is continuously adjustable with respect to the strength. 5. Procedure as stated in claim 3 or 4, characterized in that the pulsation of the settling air stream is produced only by the swinging sentence freight carrier. 6. Device for carrying out the method according to claims 1-5, which device is designed as an air setting machine comprising a vertically and/or horizontally movable setting material carrier, which is used to produce the swinging movements. provided with a drive device, characterized in that on the settling goods carrier (2) is. it arranged a grain layer. (5) . . 7. Device as stated in claim 6, characterized in that the carrier (2) is. designed as a perforated plate, screen cloth or grid. 8. Device as set forth in claims 6 and 7, characterized in that the storage goods carrier (2) has slot-shaped passage openings. 9. Device as specified in one of claims 6-8, characterized in that the grain layer (5) consists of spherical bodies. . 10.. Device as specified in one of claims 6-9, characterized in that the density of the material used for the grain layer (5) lies between the density of the heavy material (11) and the density of the light material (15). 11. Device as specified in claims 6-10. characterized by devices (9,12'). for producing a constant air flow (5) which is adjustable in terms of strength.