DE878633C - Device for separating minerals according to specific gravity with the help of heavy fluids - Google Patents

Description

Device for separating minerals according to specific gravity With the help of heavy liquid It is known for the so-called heavy liquid treatment To use trough-shaped separators, which consist of an endless, over pulleys guided troughed belt exist. The use of such trough belts' has therefore proved to be particularly advantageous because the belt speed corresponds to the exit speed the. adapted heavy liquid flowing from a feed container onto the troughed belt can be and thus no differences in movement between the heavy liquid and the troughed belt. This creates eddies that interfere with the avoided. In addition, the use of troughed belts guarantees a high throughput. In the case of a proposed heavy liquid separator, the residence time of the material to be separated in the pulp by appropriate measurements of the belt length achieved.

The object of the invention is to determine the dwell time for a given tape length of the goods in the turbidity within certain limits by changing the turbidity speed to be able to set as desired. Because the good with regard to its rate of descent remain in the gutter for a certain period of time. must, is z. B. also a shortening the channel by reducing the flow velocity the May be cloudy in the gutter. The flow velocity in turn depends on the in the unit of time running down from the channel, taking into account is that depending on. the grain size of the minerals to be separated a minimum bath depth must be held upright in the gutter; which are generally a certain multiple of the largest occurring grain.

At lower speeds of the turbidity during the separation process to reach and thus with a shortened channel to the same, required for the sinking To get dwell time is proposed according to the invention at the drain end of the channel Means to regulate the: to provide the drainage cross-section of the pulp. The means can be designed differently; the most practical and easiest is the use of flaps which can be pivoted about vertical axes and which laterally control the flowing turbidity constrict and thereby reduce the drainage cross-section depending on their setting. Around the vortex formation occurring due to this cross-sectional reduction is harmless will make the separation of the minerals into holdings and mountains upstream of the means narrowing the drainage cross-section, so that thus: the separation has already taken place before the slurry flows off through the narrowed cross-section.

With the cloudiness caused by the narrowing of the cross-section: g must a corresponding dimensioning of the heavy liquid quantity flowing into it at the inlet end of the channel go hand in hand to ensure both a constant bath depth and a Avoid overflowing. This will be most expedient and safely avoided a vortex formation when flowing into the channel is achieved by the fact that the liquid level in the feed container at almost the same height as the level of the liquid in the Trough brought and by continuously regulated supply of a corresponding to the amount of drainage Amount of heavy liquid is kept at this level.

In the drawing is an embodiment of the subject -der Invention one; Device for separating minerals according to specific gravity, shown schematically with the help of heavy liquid, namely Fig. i shows a Side view of the device and FIG. 2 a plan view of the run-off end of the troughed belt.

The heavy liquid, which is normally circulated, is carried through a bumpless pump i continuously pressed into. the riser 2, which is in the feed container 3 opens. This engages with an outlet nozzle 4 over the ' Infeed end of an endless troughed belt guided over deflection rollers 5 and 6 made of a resilient material, e.g. B. Rubber, existing troughed belt is with side flaps 8, which are folded up in the upper part of the belt, so that a groove is created. The outlet spout 4 lies on the base and on the inner surfaces of the folded-up Side flaps 8 tightly closing. At the end of the troughed belt are inside the channel has two flaps i 1, 12 which can be pivoted about vertical axes 9,1o, through which the flowing turbidity stream can be narrowed laterally. Depending on the Adjustment of these flaps and the distance remaining between their free ends finds a congestion of the turbidity flow in the channel and thus a reduction in the Flow velocity instead of. These are taking into account the required Bath depth, both the speed of rotation of the belt 7 and the feed quantity adapted to heavy liquid through regulation, pump i. The top level of the mirror of the feed container 3 is set by an overflow slide 13. About overflowing Heavy liquid enters the suction line 15 again through a pipe 14.

The minerals to be separated are through a chute 16 at the inlet end abandoned the gutter. When passing through the channel, the larger parts sink Weighted as that of the heavy liquid, while the parts of lesser specific gravity floating on the surface. There is a separating tongue for the separate removal of these parts 17 provided at the drain end of the channel, the separating edge 18, in the direction of flow seen the turbidity is in front of the flaps 11, 12. Each of the flaps consists of one underneath and a part lying above the separating tongue. These parts can also each individually adjustable.

The belt speed only depends on the respective lowering speed of the minerals and is no longer determined by the flow rate of the pulp. This makes it possible to build band sink separators of short lengths.

Claims (6)

PATENT CLAIMS: i. Device for separating minerals after specific gravity with the help of heavy liquid using a die Endless troughed belt, guided over pulleys, thereby forming a separating channel. characterized in that at the drain end of the channel means (11, 12) for regulating the drain cross section the turbidity are provided. 2. Device according to claim i, characterized in that that the means consists of flaps pivotable about vertical axes (g, io). (11, 12) exist, which constrict the running-off turbidity stream laterally. 3. Device according to the claims i and 2 using a separating tongue at the discharge end of the gutter, characterized in that the separating edge (i &) of the separating tongue (17), in the direction of flow of the pulp seen, in front of the flaps (11, 12). 4. Apparatus according to claim 3, characterized characterized in that each of the flaps (11, 12) consists of one below and one above the separating tongue (17) is part. 5. Device according to Claim q., Characterized in that the parts of each flap are individually adjustable are. 6. Apparatus according to claim r, characterized in that the in: the separating channel opening feed container (3) is connected to a riser (a) and the liquid level in the feed container - through the mediation of an adjustable overflow device (slide 13) is held at the same height as the liquid level in the separating channel.