FI126826B - Apparatus for separating solid material by means of floating on a solid medium - Google Patents

Description

Apparatus for separating solid material by means of floating on a solid medium

Background of the Invention

The invention relates to apparatus for separating solid material by means of floating on a solid medium, for example in the classification of solid fuel fractions comprising at least one basin for solid medium; a gas supply arrangement for the basin or each basin for introducing a gaseous medium into a solid-filled basin to adjust the density of the solid medium; a transfer arrangement for conveying solid material into the basin and for transferring the trapped material from the basin or to any subsequent basin; and an outlet conveyor arrangement for removing fractions of solid material that have fallen into the basin or each pool bottom, wherein the outlet conveyor arrangement comprises a rotating body of a rotatably permeable, fluid-permeable bottom, raising the dropped fractions from the bottom of the basin above the solid medium; and an outlet conveyor extending inside the lifting drum to remove fractions raised by the lifting drum outside the lifting drum. An apparatus of this type is known from IL 542 50 A.

Much of the world's energy production is still based on the steam-firing process, which burns water to steam in a boiler, which in turn is converted into electricity through a turbine and a generator. This process requires combustible fuel to operate, which can vary greatly in price and availability. The use of industrial, commercial or household waste as a fuel provides a good source of fuel but also presents many challenges due to its heterogeneity. The waste contains components that are problematic in terms of incineration, such as rocks, soil, metals, glass and other non-combustible inert substances, as well as PVC-like substances which, when burned, produce harmful compounds. As far as technically and economically feasible, these non-combustible or harmful or otherwise usable parts are intended to be separated from the material destined for combustion by various processes. In most cases, the process of refining waste into good quality fuel begins by bringing the waste to a suitable size for further processing. These processing methods include e.g. crushing and various screening, etc. For removal and sorting of non-magnetic components, eg machine vision-based robots, NIR-based separators, wind separators, and floatation. The drawbacks of robots and NIR technology are their high cost and modest capacity. Air separators are based on the weight difference between the materials. However, the method has the disadvantage that the shape and humidity of the pieces significantly affect the resolution and thus the desired purity is not achieved by the method. Liquid dewatering methods are best suited for the separation of wood-based materials, but have the disadvantage of inaccurate classification with other materials, wetting of material used as fuel, and problems with treatment of by-product wastewater.

Separation based on floating materials with a solid medium avoids the problems of the above methods. Hereby, the solid medium is made to behave like a liquid, however, so that the density of the floating medium can be adjusted within desired limits. In solutions using solid media, the medium is typically sand, through which air is typically blown. As a result, the buoyancy caused by the selected media material stream to the bodies is changed, resulting in objects of a certain density remaining on the surface of the medium and denser objects sinking below the surface of the medium. The pieces remaining on the surface of the solid medium are moved forward or allowed to drain on an oblique surface. In some solutions, the resolution values and the number of fractions may be predetermined.

One apparatus is known in the art having a single chamber and a medium having a single density to obtain two different fractions.

In another apparatus, the densities of fractions and their general compositions are predetermined. Preferably when using sand as a medium, the removal of particles heavier than the medium that have migrated to the bottom of the medium becomes a problem.

In yet another apparatus, a chain conveyor is shown for removing and transporting articles. The chain joints within the chain conveyor and the joints between the chain and the bore within the sand are then subject to heavy wear, as are the auxiliary wheels and slides used to guide the chain.

Summary of the Invention

It is an object of the invention to overcome the drawbacks described above by further improving the structure of the separation apparatus. This object is achieved by the apparatus according to the invention, characterized in that the outlet conveyor comprises a slide base arranged inside the lifting drum for fractions falling from the lifting drum, and a scraper chain conveyor arranged to cooperate with the slide base.

In a preferred embodiment of the invention, the lifting drum may be mounted above the discharge conveyor. Thus, all substantially sensitive components of the apparatus can be positioned above the surface of the abrasive solid medium, typically sand. In this case, the lifting drum preferably comprises an inner support ring structure through which the inside of the lifting drum is supported by at least two support bearings, the outer drum of the lifting drum respectively being supported by at least two supporting bearings against the outer ring.

A preferred combination of hardware components may be such that the transfer arrangement comprises a scraper chain conveyor extending through the hardware, with a lower feed portion moving on the surface of the basin or basins and an upper return portion forming said chain conveyor in cooperation with said slide base. Thus, the conveyor used for transferring solid material can also be used to remove separated particles and fractions.

Other preferred embodiments of the invention are set forth in the dependent claims.

List of figures

The invention will now be described by way of one preferred embodiment with reference to the accompanying drawings, in which Fig. 1 is a longitudinal cross-sectional view of the apparatus of the invention; and Fig. 2 is a cross-sectional view of the apparatus of Fig. 1 taken along line B-B of Fig. 1, Fig. 3 is a more detailed view of the cavity arrangement of Figs. 1 and Fig. 4 is a cross-sectional view taken along line A-A of Fig.

DETAILED DESCRIPTION OF THE INVENTION

Referring to the drawings, the apparatus according to the invention for separating solid material by means of solid medium preaching, particularly for classifying the solid fuel fractions 1a, 1b, 1c disclosed herein, comprises two consecutive pools 4a, 4b having solid media 5a, 5b. The medium 5a, 5b may in principle be any powdery or granular medium, for example inert substances such as sand, salts, alumina or combinations thereof, as well as combustible substances such as coal dust or sawdust. For each basin 4a, 4b there is a gas supply arrangement showing nozzles 6a, 6b for supplying a gaseous medium, preferably air, to the tanks 4a, 4b filled with solid medium 5a, 5b for adjusting the density of the solid medium 5a, 5b. A transport conveyor 3 is provided for conveying fractions 1a, 1b, 1c to pools 4a, 4b and fractions 1b, 1c of solid medium 5a, 5b to the next tank 4b and out of the plant to remove fractions 1a, 1b from the bottom of pools 4a, 4b. an outlet conveyor arrangement 8a, 8b, 3b, 12a, 12b, 13a, 13b. In order to feed fractions 1a, 1b, 1c to the transfer conveyor, a feed channel 2 is provided.

The discharge conveyor arrangement comprises two rotary drums 8a, 8a, extending across the solid media 5a, 5b, i.e., at the bottom of each tank 4a, 4b, above the solid medium 5a, 5b in the tanks 4a, 4b and above the transfer conveyor 3, the frames have lifting means 11 for lifting the fractions 1a, 1b which have fallen to the bottom of the tanks above the solid medium 5a, 5b. Each lifting drum 8a, 8b extends substantially along the entire length of the vessel 4a, 4b in question. The permeability of the lifting drums 8a, 8b may be achieved by means of holes 10a or apertures 10b of the drum construction. In Fig. 1, the left sides of the lifting drums 8a, 8b are shown as openings and the right sides as perforated structures. Of course, each lifting drum 8a, 8b may be of either of these designs. The lifting means 11 may be similarly formed as permeable structures.

The outlet conveyor arrangement also comprises outlet conveyors 3b, 12a, 12b extending inside the lifting drums 8a, 8b to remove the fractions 1a, 1b lifted by the lifting drums 8a, 8b outside the lifting drums 8a, 8b.

The lifting drums 8a, 8b are mounted above the medium 5a, 5b and the imaginary rotation axes of the lifting drums 8a, 8b run substantially parallel to and close to this longitudinal axis of the apparatus. For rotation, the lifting drums 8a, 8b comprise inner support ring structures 14 through which the inside of the lifting drum 8a, 8b is supported on at least one support bearing 9, the outer periphery of the lifting drum 8a, 8b being respectively supported by at least one similar support bearing 9.

The discharge conveyors 3b, 12a, 12b comprise slides 12a, 12b arranged inside the lifting drum 8a, 8b for fractions 1a, 1b falling from the lifting drums 8a, 8b, and a chain conveyor 3b provided with cooperating scrapers 7a, 12b. While the transfer conveyor 3 now comprises a chain conveyor with scrapers 7 extending through the apparatus, with a lower feed portion 3a and an upper return portion 3b movable on the surface of the tanks 4a, 4b, this upper return portion forms a contact with said slider member 12a, 12b 3b. It should be noted that a chain conveyor may also be replaced by another conveyor if technically feasible.

Figures 3 and 4 illustrate a preferred embodiment of the scrapers 7, wherein the recesses 7 are formed asymmetric with respect to the centerline C of the conveyor 3a, 3b with a higher portion 7a and a lower portion 7b with respect to the centerline C, with the scrapers 7 passing over the slide 12a, 12b the portion 7b introduces the removed solid material from the sumps 4a, 4b before and in the other direction, the higher portion 7a sinks into or substantially enters the medium 5a, 5b in the sinks 4a, 4b to transport the solid material to be removed from the sinks 4a, 4b.

The discharge conveyor arrangement also comprises additional discharge conveyors arranged outside the lifting drums for removing the conveyor conveyors 3b, 12a, 12b from the apparatus. Here, the additional discharge conveyors comprise a chain transverse to the discharge conveyor 3b, 12a, 12b, substantially transverse to the conveying direction, conveyed by slides 16a, 1b for the fractions 16a, 1b and 16b, respectively.

In an alternative embodiment, it is possible for the discharge conveyors 3b, 12a, 12b to be replaced by sloping ramps arranged inside the lifting drums 8a, 8b. Similarly, the additional discharge conveyors 13a, 13b may be replaced by sloping ramps substantially transverse to the conveying direction of the discharge conveyors. In this case, the two conveyors may optionally be combined into one discharge conveyor.

In an alternative embodiment, the basins 4a, 4b may be arranged at an inclined angle to the horizontal and / or the basins 4a, 4a are arranged such that in the separation direction of fractions 1a, 1b, 1c, the next basin is always lower relative to the preceding basin. In this case, it may also be possible that the transfer conveyor portion 3a is not needed, but that the transfer arrangement consists of this forward slope of the apparatus.

The different pots 4a, 4b may have different solid media and / or different solid media. There is no limit to the number of pools. Sometimes one pool may be sufficient, and there may be more pools than the two pools 4a, 4b described above.

The operation of the hardware can be briefly described as follows:

The fuel fractions 1a to 1c are fed through the feed duct 2 to the conveyor 3 which conveys the fractions to the first basin 4a. The density of the solid medium 5a in this basin 4a is controlled by supplying to the medium 5a a gaseous medium, preferably air, through a nozzle 6a. This gaseous medium may be supplied to the medium 5a, 5b in varying amounts. The supplied gas changes the density of the medium 5a so that only the densest part of the material stream, i.e. fractions 1a, is pressed to the bottom of the basin 4a, with the lower density fractions 1b, 1c moving to the next basin 4b with the help of scrapers 7 The lifting drum 8a picks up the densest fractions 1a on the bottom of the first basin 4a. The lifting members 11 of the lifting drum 8a lift up the fractions 1a which are denser than the media 5a that have been carried to the bottom of the medium 5a and transfer them to the return portion 3b of the conveyor 3. The removed fractions 1a slide by means of a return portion 3b acting as an exit conveyor along the sliding base 12a to the additional transverse discharge conveyor 13a. The same event is repeated identically for the next basin 4b, with the next densest fractions 1b remaining in the basin 4b and only the lowest density fractions 1c remaining, which are eventually removed from the apparatus by the feed portion 3a of the conveyor 3.

The above description of the invention is intended only to illustrate the basic idea of the invention. Thus, one of ordinary skill in the art can modify its details within the scope of the appended claims. It should be noted that the apparatus according to the invention can be used not only for material separation but also for drying and / or purification of the material, although this is not specifically described.

Claims (18)

An apparatus for separating solids (1a, 1b, 1c) by means of a flotation which takes place with a solid medium (5a, 5b), for example in the classification of solid fuel fractions, the apparatus comprising at least one pool (4a, 4b) for solid medium (5a, 5b); a gas supply arrangement (6a, 6b) for the basin or each basin (4a, 4b) for supplying gaseous medium to a basin filled with solid medium (5a, 5b) to control the density of the solid medium; a transfer arrangement (3) for transporting the solid (1a, 1b, 1c) to the basin (4a, 4b) and for moving material (1b, 1c) that has become on the solid medium (5a, 5b) forward away from the basin or to any following pool; and a removable conveyor arrangement (8a, 8b, 3b, 12a, 12b) for removing fractions (1a, 1b) of solid material which have flowed to the bottom of the basin or each basin (4a, 4b) from the apparatus, the conveyor arrangement comprising a rotary lifting drum (8a, 8b) extending to the bottom of the basin or each basin (4a, 4b) and above the solid medium (5a, 5b) in the basin which permits solid medium and is transversely disposed with respect to transfer the ring direction of the solid material (1a, 1b, 1c), on whose periphery there are lifting means (11) for lifting fractions (1a, 1b) which have fallen to the bottom from the bottom of the pool above the solid medium; and a removal conveyor (3b, 12a, 12b) extending into the lifting drum (8a, 8b) to remove fractions (1a, 1b) lifted by the lifting drum, outside the lifting drum, characterized in that the away conveyor comprises an inside of the lifting drum (8a). , 8b) provided the slide bottom (12a, 12b) for fractions (1a, 1b) falling from the lifting drum, and a chain conveyor (3b) provided with the slide bottom in cooperation. Device according to claim 1, characterized in that the lifting drum (8a, 8b) is stored above the medium (5a, 5b). Device according to claim 2, characterized in that the lifting drum (8a, 8b) comprises an inner support peripheral structure (14), through which the inside of the lifting drum is supported by at least one supporting layer (9), the outer periphery of the lifting drum being similarly stored. with at least one support layer (9) which is against the outer periphery. Device according to any one of claims 1-3, characterized in that the transfer arrangement (3) comprises a chain conveyor provided with a scraper (7) extending through the device. Device according to claim 1, characterized in that the transfer arrangement (3) comprises a chain conveyor provided through the device (7), wherein a lower feeding portion (3a) of the pool or bass songs (4a, 4b) and a upper return section (3b) which forms a sliding bottom (12a, 12b) arranged with the chain conveyor arranged inside the lifting drum (8a, 8b). Device according to claim 5, characterized in that shovels (7) are formed asymmetrical with respect to the center line (C) of the conveyor (3a, 3b), so that there is a higher part (7a) in relation to the center line (C). and lower part (7b), whereby the shovels (7) move on the sliding bottom (12a, 12b) of the lower part (7b) from the bases (4a, 4b), lifting solid material further and as they move in the other direction the the higher portion (7a) into the medium (5a, 5b) in the basins (4a, 4b) or substantially adjacent the surface carrying solid material to be removed from the basins (4a, 4b). Device according to any one of the preceding claims, characterized in that the away conveyor arrangement comprises an additional lift conveyor (13a, 13b, 16a, 16b) arranged outside the lifting drum (8a, 8b) for removing fractions transferred by the away conveyor (3b, 12a, 12b). device. Apparatus according to claim 7, characterized in that the auxiliary conveyor comprises a chain conveyor (13a, 13b) substantially transverse to the conveying direction of the conveyor (3b, 12a, 12b) and a chain conveyor (13a, 13b). provided the slide bottom (16a, 16b) for fractions (1a, 1b) coming from the away conveyor. 9. Device according to claim 7, characterized in that the auxiliary conveyor comprises a substantially transversely inclined ramp relative to the conveying direction of the conveyor. Device according to any one of the preceding claims, characterized in that the basin or basins (4a, 4b) are arranged at an inclined angle with respect to the horizontal plane. Device according to one of the preceding claims, characterized in that there are several basins (4a, 4b) and they are arranged so that in the direction of separation of the fractions, the following basin is always lower compared to the previous basin. Device according to any one of the preceding claims, characterized in that the solid medium (5a, 5b) belongs to a group containing powdery or granular media, for example inert substances such as sand, salts, alumina or combinations thereof and also substances suitable as fuel, such as coal dust or sawdust. Device according to one of the preceding claims, characterized in that the different basins (4a, 4b) have different solid media (5a, 5b) to the grain size. Device according to one of the preceding claims, characterized in that the different basins (4a, 4b) have different solid media (5a, 5b). Device according to one of the preceding claims, characterized in that the gaseous medium is air or a mixture containing mainly air. Device according to one of the preceding claims, characterized in that in the medium (5a, 5b) different amounts of the gaseous medium are fed. Use of a device according to claim 1 for drying a material. Use of a device according to claim 1 for the purification of a material.