DE974817C - Method and device for floating and sinking separation of coal or ore or minerals - Google Patents

Description

Method and device for floating and sinking separation of coal or ore or minerals The invention relates to a method for floating and sinking separation of coal or ore or minerals using a through a sloping Tank bottom tapered separating bath, with separating liquid flowing in and out at the deep end in the tapered part of the bath separating fluid is removed.

It is a process of this type for swimming and sinking separation Coal known, in which a very deep container is used in which a bucket conveyor for conveying the sink products and a shovel conveyor for conveying the suspended products are arranged. The sink products are deposited at the lowest point of the container and are intermittently in lumpy masses with the bucket conveyor backwards conveyed out of the container. The floating products as well as the swimming products are conveyed forward diagonally upwards out of the separating bath with paddle conveyors. Since all the conveyors are arranged in the separating bath, they are created in opposite directions Direction of moving blades and cups disturbing currents in the separation bath, which the Disrupt and impair swimming and sinking separation considerably. The very annoying ones Currents make it practically impossible with this known method in the container to achieve a flow with a certain direction. The at Bucket and paddle conveyors used in this process are difficult to manufacture and expensive to assemble. The container must be very large to accommodate them can be. They are also subject to heavy wear, as almost all of them have to work with chains. Because the size of the container also holds a large amount of liquid due to it, it is difficult to change the density of the liquid medium quickly. In addition, the suspension commonly used for separation easily becomes balanced disturbed.

It is also known a method for cleaning grain which the grains sinking in the separating bath continuously on one over the whole Path of floating and floating products, d. H. of the husks and impurities in the grain, extending and immediately above the sloping floor and parallel to it the bather moved flat impermeable endless conveyor belt, its empty run is guided outside the separation bath, to be deposited by the conveyor belt at accordingly slight inclination of the same carried along by frictional force and tapered. Bathers to be carried out. The grain is used in the device to carry out this known method by Rufsieben in great width and length on the surface thrown in a water bath. The pods and impurities floating on the surface are made by a water flow directed transversely to the longitudinal direction of the container eliminated. This common method of cleaning grain is for coal or ore separation is not suitable. When cleaning grain you need the wholesome cereal grains are separated from dust, husks and empty grains. The latter are considerably heavier than the products to be discarded, so that the separation is easy by fast flowing currents, namely water or air currents, can be carried out. The heavier grains sink immediately, while the The pods and most of the impurities remain on the surface of the water. So mainly only sink and float products occur, while floating products occur only to a very small extent. In the case of divorce from minerals, this is different. When divorcing natural minerals, products come with a gradation tightness from the largest to the smallest, so that not only sinking and swimming products, but in particular also floating products are present. These Floating products have a tendency to collect in the separation bath, if not one suitable flow prevents this. The cross flow in the known methods only allows the swim products to be pushed off the surface of the ball. The levitation products but could not be eliminated here, so this method of mineral separation is useless.

It is also known in floating and sinking separators for coal and Ore the floating and floating products by flowing in the same direction continuously discharged from the bath surface like that conveyed by a scraper belt Sink products. In this process, too, the sink products are removed using a scraper belt excreted, which leads to the occurrence of undesirable currents and the sink products in caked lumps, which often still contain floating or floating products, who had no opportunity to escape upstairs into the bathroom, excreted will.

The disadvantages of the known methods are made clear by the following overall statement according to the invention corrected by procedural features: The sink products are continuously on a extending over all the way of the floating and floating products and immediately above the sloping floor and parallel to it, moving flat towards the end of the bath or weakly arched, impermeable endless conveyor belt, the empty run of which is outside of the separation bath is carried out, deposited unhindered and from the conveyor belt at accordingly slight inclination of the same dragged along by frictional force and at the tapered bather discharged, and the sink products conveyed in the same direction flowing floating and floating products are on the bath surface in the same Direction as the sink products are continuously applied and thereby the through the Floating products reaching the surface of the ball between the discharge points the sinking and swimming products are removed from the surface of the ball.

According to the invention, the sink products are on an immediately above deposited on the sloping floor and parallel to this conveyor belt moving towards the end of the bath and carried along by the friction force and carried away by the rejuvenated bather. This results in a relatively flat and correspondingly long container in contrast to the very deep and large previously known separating containers. With consideration Make sure that no bucket or paddle conveyors move within the separation bath be, but rather according to the invention a conveyor belt directly above the inclined Soil is moved, it is clear that in the method according to the invention no harmful and disturbing currents are generated by the movements of the conveyor belt. this is still favored by the fact that the flow direction of the floating and floating products corresponds to the conveying direction of the sink products on the conveyor belt. Another The advantage of the invention is that the sink products move freely and evenly can precipitate distributed over the entire conveyor belt, whereby the sink products only lie loosely on this conveying surface, i.e. light particles that lead to the floating or swimming products and accidentally been taken along by the sinking products thanks to the loose storage of the sink products, they can rise freely to the top again can. Since the conveyor belt is guided directly on the bottom of the container, it remains no Space between the conveyor belt and the bottom of the container that could become soaked with sludge.

These advantages are achieved through the overall combination of the process features mentioned obtained, so that the invention is limited to this combination.

The invention is shown in the drawing on the basis of exemplary embodiments shown schematically. It shows Fig. I an elevation of an embodiment of a Apparatus for carrying out the method according to the invention, FIG. 2 is a plan view Fig. i, Fig. 3 shows a section along the line III-III of Fig. i, Fig. q. a Section along the line IV-IV of Fig. I, Fig. 5 is a path diagram of a scraper blade, 6 is a view, on an enlarged scale, of another form of scraper, FIG. 7 shows a cross section of another shape of the container, FIG. 8 shows a cross section with Circulation channels under the conveyor belt, Fig. 9 with a partial view in elevation a desludging device under the conveyor belt, Fig. 10 is an elevation of a further shape of the container, Fig. i i an elevation of a tandem container arrangement, 12 shows a section through a double conveyor belt arrangement.

A three-sided container i is provided with a bottom i aa which slopes upwards over its entire length. The container is made by a flexible Go through conveyor belt 2, the width of which corresponds approximately to that of the container and extends over the entire range of motion of the floating products, this Conveyor belt is driven by a pulley 3 and otherwise by pulleys or wheels q., 5 is guided so that it enters the container from the surface of the liquid medium enters at the rear end, just above the sloping bottom of the Container moved forward and out of the surface of the liquid medium in the extreme front end exits. The surface of the belt 2 must have sufficient friction or grip in relation to the material to be treated and the incline of the conveyor belt, around the material against the resistance of the passage through the liquid medium To be conveyed further by friction entrainment alone. The rewind of the tape is through guided a pulley arranged in the rear end under the container.

The conveyor belt 2 can optionally be made of fabric and rubber or flexible Steel exist and must be flat across its width or with the help of idlers or Rolls be slightly curved, or the bottom of the container can be across its width be concave. The bottom of the container and with it the conveyor belt rise with an even slope over the entire length of the container. The conveyor belt : 2 can, if so desired, move a suitable piece to the rear End of the container i are extended, as indicated at 2 a, with the help a pulley 7 arranged at a suitable location, in the simplest possible manner collect the materials to be separated at a distant point and the Feed containers without additional funds.

However, the products can also be attached to the container independently of the conveyor belt 2 are fed, in which case the rear extension of this tape is not necessary is. .

Longitudinal currents are generated in the liquid media, to force the suspended solids to follow a straight path, this being this Currents flow relatively slowly and gradually in the deep part of the container become faster, the more the cross-section decreases towards the front, with am adjustable locks 8 known per se at the front end in the sides of the container (Fig. 3) are provided in order to discharge the overflow generated by the currents. The overflowing liquid together with the suspended matter flowing off reaches sieves 9 and 24 and is from these there to the rear end of the The container is fed back through a pump io and the container with the help of adjustable Inlets i i fed back, which are arranged at different heights to a to achieve appropriate distribution of the currents. By regulating the inlets i i and the locks 8 can control the amount and the upward components the currents are changed. In addition, it can be vertical or inclined perforated plate i a provided to prevent the falling back into the container imported material and contamination of the disc 5 to prevent. These Plate i a also forms an additional means of distributing the inlet flow to control by closing any inlet ports like this one is just required.

The materials to be separated are in the liquid medium or near the deeper part of the container, for example by sliding 12 or introduced with the help of an extension 2a of the band a. The sink products from it settle on the belt 2, which moves at a relatively low speed moved to ensure smooth passage of the material through the liquid and so avoid eddy currents. The sink products are lifted out of the liquid and unloaded with the aid of the conveyor belt 2 at the front end of the container i. The conveyor belt 2 is preferably slightly curved, as shown. This serves not just to ensure that the sink products remain on the belt, but rather also, to counteract the tendency of the belt to float when the fluid medium has the same or greater specific weight than the material of the belt, with such a curvature a stiffening of the band occurs, which it in the length in a straight line elongated shape. Such bulge also causes some finishing effect on the sides of the tape, as a result the tension of the upwardly directed ligaments causing them to be depressed on the bottom of the container carrying the tape. This is everyone The ribbon's tendency to float, opposed enough resistance and penetration of the material between the belt and the bottom of the container.

Part of the way along the container above the surface A scraper is arranged for the liquid, for example from a shovel 13, which performs the movements shown in the diagram of FIG. 5, with the Purpose to have a minimum of interference with the particles in their respective locations to reach. The scoop of this scraper dips into the liquid and drifts the swimming products in the direction of flow in a known manner via a weir 14 that is arranged transversely to the container i, into an inclined transverse chute 15 (Fig. 4.), which has side walls 16 to separate it from the liquid in the container, and serves to excrete the flotation products through the side walls of the container. As shown, the chute 15 may be roof-shaped from the center, one at a time Part of the products on one side and part on the other side of the To guide the container in a funnel 17, which leads to the sieve 9.

Instead of the scraper 13, a paddle wheel of the type as in 2o and 21 shown, can be used. Such paddle wheels are known per se and were z. B. already in a swim-sink divorce proceedings for legumes applied.

If the flow in the container is sufficient to remove the suspended matter, the scraper 13 can of course be omitted and the suspended solids can can only be discharged through the current via the weir 14, with the weir then slightly below the surface of the liquid.

In another arrangement, a horizontal comb scraper is over the whole separation area of the container arranged so that the blades into the liquid dive in and move the swim products forward to the discharge spout. at the shape shown in Fig. 6, the comb scraper 18 is elongated and so arranged, that he step out of the liquid and the swim products on an inclined Can slide level i9.

The side walls of the container i are normally perpendicular and to one another parallel. According to FIG. 7, the container can have the length determined for the separation in the upper part wider than the bottom, so that the side walls then face down to converge. This is beneficial when the amount of floating and floating products is considerably larger than that of the sink products.

The liquid flows that are relatively slow as long as the separation takes place in the deep part of the container, improve the degree of purity separation by controlling the sinking of the densest product. The latter would otherwise cause eddy currents if it descended too quickly. The flow rate grows as the container becomes flatter. All floating products that are neither settled still have to float on the surface of the liquid medium, thereby taken along, and the heavier parts of it can be put together on tape 2 settle with the sink products. This can be supported mechanically by that you have a mechanically moved paddle wheel 2o at the discharge point of the sink products arranges. This also makes it easier to discharge the sink products.

A second paddle wheel is arranged between the discharge point of the sink products and that of the float products in order to eject the main mass of the float products separately, namely at 14a in a similar way to the unloading of the float products, namely by lateral chutes 22 similar to the chutes 17 . In this way, the material is subjected to a second separation after the flotation products are removed.

The action of the paddle wheels in both cases is such that the Well pressed into the weir, so that the overflowing liquid part more Contains solid products than would be carried along if there was a free flow through the weir took place. This will reduce the amount of excess fluid necessary for drainage fixed parts is necessary is reduced considerably.

In some cases the paddle wheels 2o and 2 1 can be saved and the suspended products are carried away with the liquid that overflows through the weirs. The floating products can then be treated as a separate second quality product or associated with the swim products or the sink products, as the case may be will. The relative amount of the liquid overflowing with the products can through Regulation of the weirs 14, i4a and the locks 8 and thus regulates the flow of liquid can be regulated in the desired manner.

In the device described above, the liquid level is above the tape 2 is low in relation to its length and, consequently, its volume for a given cross-section of the separation zone relatively small, so that a A relatively small flow volume is sufficient for a quick change of the Cause separation fluid, which in turn causes an accumulating contamination the liquid is prevented by the substances to be treated.

The liquid is advantageously made up of a suspension of fine, solid base materials in water. The flow rate must sufficient to prevent the solid parts of the suspension from settling and the maintain uniform density. The flow can be regulated so that any settling, according to the properties of the solid parts of the suspension, is avoided. The flow is otherwise compressed towards the surface, there the cross-section tapers. This counteracts the tendency of being suspended solid particles to settle downwards. The suspension is therefore stable, and their most favorable specific gravity is maintained with minimal flow.

In addition to the locks at the front end of the container you can adjustable locks at suitable points along the side walls of the container 23 are arranged. By opening these locks depending on the circumstances, strength becomes and direction of the currents in the liquid medium regulated and at the most favorable Conditions for the release effect set.

If z. B. the locks that are closer to the rear end of the container are opened, the currents may have a growing upward component which is particularly beneficial to the settling of the solid parts Control the suspension when you have a labile or semi-stable suspension used as a fluid medium. It is a particular advantage of the invention that a suspension of this type can be used because the suspensions are less stable significantly easier according to their tendency to cause free settling and can be more effectively cleaned and recovered for reuse than suspensions of greater stability.

The other products during the separation are passed through sieves 24th and 25th directed to the liquid medium that drained from the container along with them is going to secrete. The diverted fluid will be along with that passing through overflows the locks, returned to the rear end of the container and fed back to it through controllable inlets i i. That overflowing through the locks Medium is also sieved if fine material tends to settle in to pile on him. This of course depends on the nature of the substances to be treated away.

The liquid medium that the products have after sieving still adhering, is sprayed with the help of water, as shown at 9a., 24a and 25a, with the diluted liquid resulting from this purification continuing through suitable means are cleaned according to the type of liquid medium used, z. B. by sieving with the help of fine wire sieves to the coarser material or by hydraulic separation to remove fine sludge particles, and / or foam swimming method. The purification is combined with a re-concentration, for example by deposition by heavy or centrifugal concentration. Other means for cleaning and re-concentration can of course be used accordingly the liquid medium used can also be applied, e.g. B. can be a chemical Solution are subjected to heating and evaporation. The recovered and Liquid medium concentrated to the desired specific gravity is the Recirculation in the container is supplied again, while liquid losses occurring in the process be balanced by adding new liquid.

In order to prevent the conveyor belt from becoming matted by the sludge that settles between it and the bottom of the container, one or more channels 26 are provided between the conveyor belt and the part of the container on which it rests - the inclined part in FIG i aa -, arranged by creating a clearance between the former and the latter with the aid of side rails 27 and a central rail 28 (Fig. 8) and forcing the medium to circulate through the channels 26 with the aid of a pump.

Instead of causing the medium to circulate, one can Arrange mud pans 3o, as shown in Fig. 9, and the medium through a pipe Derive 31, for which purpose the bottom i aa of the container is provided with holes.

Fig. 10 shows a modified form of the container used there can be where a longer separation zone at the same depth of the vessel is required. The container has a horizontal part i b over which a horizontal extension 2 b of the conveyor belt 2 moves, on which the sink products hang up before the upward part of the run through side rollers 12 Reach the conveyor belt. In this form, the flow velocity is in the horizontal part constant, but increases in the tapered part.

In Fig. I i a modification of the invention is shown in which two or several containers 1, 33 are provided in tandem, with a single one Conveyor belt: 2 for the sink products through all the containers and each one Container is provided with separate inlets and outlets for the separating liquid and the separating liquids in the individual containers gradually increase Have density.

A plurality of conveyor belts can be arranged in parallel with one another especially if the container is relatively wide acts. Such an arrangement simplifies the execution of repairs or the replacement of conveyor belts. In addition, this design allows for the individual Conveyor belts across the width of the container to choose different speeds if this is necessary. Fig. 12 shows such an arrangement with two conveyor belts 34 and 35.

Claims (6)

PATENT CLAIMS: i. Process for floating and sinking separation of coal or ore or minerals using an inclined slope Tank bottom tapered separating bath, with separating liquid added and at the deep end separating liquid is removed in the tapered bath part, characterized in that the sinking products continuously on a way over the whole way of the swimming and levitation products extending and immediately above the sloping Floor and parallel to this flat or slightly arched, moving towards the end of the bath, impermeable endless conveyor belt, the empty run of which is guided outside the separating bath is deposited unhindered and from the conveyor belt at a correspondingly low incline the same carried by frictional force and carried away at the rejuvenated bather and the floating debris flowing in the same direction over the suspended matter and floating products on the bath surface in the same direction as the suspended matter continuously applied and in doing so by the flow to the bath surface floating products arriving between the discharge points of the sinking and floating products can be peeled off the bath surface. 2. Apparatus for carrying out the method according to claim i, characterized in that in the tapering container part for discharging the floating or floating products transversely to the bath surface Inclined weirs (i4, 14a) with paddle conveyors arranged above them (i3, 2i) and behind these weirs transverse channels (i5) for the lateral discharge of the swimming or floating products are provided. 3. Device according to claim 2, characterized in that that in the side walls of the container (i) near the tapered end adjustable outlet locks (8) are provided for the drainage of the separating liquid. 4. Apparatus according to claim 2, characterized in that mechanically at the discharge point for the sink products moving paddle wheels (2o) are provided. 5. Apparatus according to claim 2, characterized characterized in that the container widens from the bottom to the liquid level (Fig. 7). 6. The device according to claim 2, characterized in that two or more containers (i, 33) are provided in tandem, with a single conveyor belt (2) for the sink products is guided through all the containers and each container with separate inlets and outlets for the separating liquid is provided and the separating liquids in the individual containers have a gradually increasing density. Documents considered: Belgian patent specification No. 447 039; British Patent Nos. 547,098, 466,964; U.S. Patents Nos. 459 636, 915 832, 2 i55 3i9, 2 i96 454 2 2o9 6i8.