SE506913C2 - Process and sorter for sorting of clay material - Google Patents

Abstract

In a process for sorting of clay material in a sorting plant, the clay material is fed into at least one feeder station in the sorting plant and thereafter out onto a sieve conveyor belt and further to a sifting or sorting device, wherein the clay material is sorted in different material fractions. A sorting plant hereby includes at least one feed station (1), a sieve conveyor belt (2), and a sieve or sorting device (3). In order to, among other things, make it possible for a larger part of the clay material to be sorted in different material fractions, prior to sorting it is subjected to a first breakdown and at least one of the material fractions after sorting before a second breakdown and thereafter wholly or partly before an additional first breakdown, after which the material fraction is fed back to the sifting or sorting device for further sorting. The sorting plant thereby features a first device (9) for the breakdown of the clay material before sorting thereof in addition to a second device (10) for breaking down the material in at least one of the material fractions after sorting and re-feeding the entire or whole lot to the first breakdown device (9) before the same reaches the sifting or sorting device for further sorting.<IMAGE>

Description

506 915 Existing sorting plants are primarily intended for sorting of sand, gravel, crushed material, etc., and not specially adapted for sorting clay materials. Resul- The fact is that existing sorting plants often provide one too poor yield insofar as one too small part of the added clay material is fractionated, i.e. sorted into different material fractions, while one too much of the clay material remains unusable. Existing sorting plants also tend to when sorting of the clay material, treat this so that the dust formation becomes considerable and troublesome from a work environment point of view.

Existing sorting plants, e.g. according to US-A-2 276 333 and US-A-3,647,150, are also often complex in nature construction.

Accordingly, the object of the present invention is to eliminate the above disadvantages and achieve a and a sorting plant that provides an increased yield of the clay material so that a larger proportion thereof can sorted into different material fractions, which minimizes dust formation during the sorting of the clay material and where to its construction is relatively simple.

The method of the present invention characterizes is applied by applying or feeding clay material before the sorting is subjected to a first disintegration and that at least one of the material fractions after sorting the ring is first subjected to a second decomposition and after all or part of a further initial dismantling division, after which it is fed to the sieve or sort further sorting device.

The sorting plant for this also has a first device for disassembly of applied or fed clay material before sorting it and a second device decomposition of at least one of the material fractions after sorting and refilling it completely 506 913 or in part to said first disintegration device for further decomposition thereof before it reaches the sieve or sorting device for further sorting ring.

Thus, unlike the prior art, the present allows invention a first decomposition before sorting, which gives a larger percentage acceptance when sorting and thereby a shorter process with less recycling rat clay material. To further speed up the process and to a greater extent than before disintegrate it after all, the reject obtained after the first sorting, In addition, the present invention allows a second disassembly division and immediately thereafter a further first division of the clay material. The result will be shorter holding time in the sorting plant and greater amount of acceptance from beginning.

Characteristic features of the above and other inventions and the benefits thereof are described in more detail below with reference to display to the accompanying drawings, on which Figure 1 is a schematic side view of an embodiment of a sorting plant according to the invention; and figure 2 is a schematic plan view of the sorting plant according to figure 1.

The sorting plant shown in Figs. 1 and 2 can in principle can be used for sorting of e.g. gravel, stone, crushing material etc .. The sorting plant is of that type comprising at least one feeding station 1, on or in materials to be sorted, applied or fed for discharge on a screen conveyor. the torch 2 feeds the material on to a screen or sorting device, here a plan view 3, in which sorting happens. Instead of a plan view 3, possibly one 506 915 4. other screening or sorting device of known construction tion can be used. From the plan view 3, material fractions tion, i.e. the different sorted materials are fed further via, for example, an end conveyor 4 with feed funnel (not shown) and one or more, here two, side conveyors 5 and 6 with feed hoppers 5a resp. 6a for on-site storage, for further sorting, for mixture with one or more other materials, for other handling and / or processing or for dare transport. The sorting plant can be transported belt, as in the drawings, and thus provided with a attached to the screen conveyor 2 wheel stand 7 with wheel 7a and between the wheels and the screen conveyor of any kind device 8, preferably hydraulically driven, for adjustment by the screen conveyor in the appropriate feed position. Sorting the work can also be fixed. Specified parts for sorting The plant is of conventional, known construction and is therefore not described in more detail here.

In order to allow efficient sorting according to the invention of clay material, i.e. clay and clayey materials, and the least possible dust formation during sorting, the sorting plant also shows a first device 9 for disintegration of or placed in the feeding station 1 or fed clay material before sorting it takes place in or the sorting device 3, and a second device For disintegrating at least one of those after sorting obtained the material fractions and re-feeding thereof material fraction in whole or in part to the first decomposition the dividing device 9 for further disintegration before the same when the screening or sorting device for ligare sorting. Using devices 9 and 10 an effective first decomposition of essentially everything in the sorting plant fed clay material and in addition first a second decomposition of substantially all clay material included in preferably the one or the other material fractions having the largest grain size and 506 913 then a further first decomposition of all or parts of this clay material. The proportion of clay material contained therein is broken down into a grain size which is used bar for any of the purposes initially stated, becomes thereby very large. The sorting of the clay material lightened and the amounts of the different material fractions becomes satisfactory, whereby the sorting in addition is financially defensible. The spread of the decomposition in two steps also means that the formation of dust at resp. decomposition can be kept down by decomposing the devices 9, 10 thereby allow work with a lower speed without deteriorating the yield.

The first disintegration device consists of a single unit 9 comprising a tearer 11 and one after the tearer coupled roller 12. The unit 9 is mounted on the screen conveyor in the embodiment shown immediately after feeding tion 1 and in connection therewith. Rivaren 11, som is suitably height-adjustable for removal as it the same is not used, has solid, preferably interchangeable only inserts 13 mounted on two rotatably driven shafts 14 and 15 which are stored in a cover 16 of the tearer.

The shafts 14, 15 rotate in the same direction, preferably so that at the bottom, at the screen conveyor 2, they approach the sat as the sight conveyor, and preferably with same speed. Efficient decomposition with low dust formation has been shown to be achieved at a rotational speed on the shoulders 14, 15 at about 250 revolutions per minute. Immediate bare after the tearer 11, via a frame 17 which is rotatably attached on the cover 16 therefor, the roller 12 is arranged. Rollers 12, consisting of a roller 12a with crushing means 12b, is rotatable stored in the frame 17 and suitably spring-loaded, so that it abuts against and is driven by the screen conveyor 2. consequently, the 12 preferably rotates in the opposite direction hold as the shredder shafts 14, 15. In order to 2 shall not yield to the roller '12 contact pressure, one or more support rollers 18 are mounted in the middle 506 915 6. against the roller on the opposite side of the screen conveyor. Tear- clean 11 and the roller 12 provide as indicated above an efficient decomposition of it from the feeding station 1 on the screen conveyor 2 discharged the clay material before this reaches the screening or sorting device 3.

For optimal effect, however, the coarsest or the coarsest clay material fractions from sieve or the sorting device 3 further to the second disassembly dividing device 10. In the embodiment shown, the the material fraction that falls on the side conveyor 5, thereof to said second disintegration device 10. The second decomposition device is made by a unit 10 comprising a tearer, crusher e.l., in the embodiment shown one on a stand 19 with legs 19a mounted, alternatively suspended in the side conveyor 5 roller crusher 20, and a transport device, here in the form of a belt conveyor 21, to feed it or them in the roller crusher the material fractions disintegrated from the roller crusher back to the screening or sorting device 3 for re-sorting therein. The roller cross 20 consists in the shown embodiment of two in a framework 22 on the stand 19 are mounted, preferably facing each other and rollers 23 and 24 rotatably driven at the same speed, between which the clay material fraction is intended to sera. The gap between the rollers 23, 24 is adjustable by displacing at least one of the rollers. Spal- can vary between 5 and 40 mm. Suitable rotational speed of the rollers 23, 24 is approx. 125 rpm.

Decomposed clay material from the material fraction falls smiles from the gap between the rollers 23, 24 into a gutter 25 and via this down to the belt conveyor 21. The belt conveyor the discharge end 21a of the porter 21 is located above the the conveyor 2 for discharging the material fraction thereon and subsequent further sorting in sieve or the sorting device. To speed up the decomposition according to the invention, the belt conveyor 21 is set so that 506 915 the material fraction is discharged on the screen conveyor 2 current about the first disintegration device 9 (no shown), so that all or part of the material fraction also fed through the first disintegration device before sorting takes place. By providing the roller crusher 20 with a separator device, e.g. a grid (not shown) used brought over the roller crusher and / or, as in the embodiment shown, and s.k. stone separator in the form of one on the rollers 23, 24 designed thread 26, can larger stones, lumps of clay and any other hard objects are separated from the material the fraction. Stones and objects that are too large for to fall down through the gap between the rollers 23, 24, is fed to the side of the grid and / or, as in the drawings, of thread 26, and of the thread from one end of the rollers down in a gutter 27 and out of the plant. Alternatively, if for example, the amount of large lumps of clay is significant, can instead of separation and discharge from the plant, also these via the chute 27 and the belt conveyor 21 carried to the screen conveyor 2 and via this further for further repeated decomposition into the first and second the disintegrators 9, 10 and re-feeding until also the lumps of clay assumed an acceptable size. Band- the conveyor 21 is also, as stated above, set so that both crushed clay material and larger, not yet decomposed lumps of clay from the material fraction discharged on the screen conveyor 2 before or upstream of the first disintegration device. An additional band- conveyor (not shown) can also be arranged, which feeds the lumps of clay from the gutter 27 back to the feeding station l or to the screen conveyor 2 upstream of the first the disintegration device 9, if desired. Variation the possibilities in the construction are great.

It is through the design according to the invention of the consequently, in addition to disintegration, the application of applied or fed clay material before the sorting and subsequent decomposition of a 506 913 or several material fractions after sorting, let all or part of this or these material fractions undergo further decomposition before sorting hence and after sorting further decompose yet not accepted material. This process can be repeated as follows many times you wish. This allows the decomposition carried out at such a rate that dust formation during treatment the clay material never becomes troublesome. Position- feeding or feeding of new clay material can take place currently or during certain given time periods, during which decomposition, sorting, further decomposition, further further decomposition, etc. takes place continuously until not disintegrated material has been removed or exposed to decomposition so many times that the material finally aCCêpteraS.

It is obvious to the person skilled in the art that in addition to what As can be seen above, the present invention may be modified and modified within the scope of the appended claims without departing from the spirit and spirit of the invention. Thus placement and design of disintegration devices and the parts contained therein to some extent differ from what has been stated above. Regulation of only parts can be made in any suitable way and the values on the speed of rotating parts and other adjustable can vary depending on the need and the clay material to be broken down and sorted.

Claims (14)

506 913 Electronics: A method for sorting clay material in a sorting plant, preferably a mobile sorting plant, wherein the clay material to be sorted is applied or fed into at least one feeding station (1) in the sorting plant and then out onto a screen conveyor (2) which feeds the material further to a screening or sorting device (3), in which the clay material is sorted into different material fractions, characterized in that clay material is applied or fed in before the sorting is subjected to a first disintegration; and that at least one of the material fractions after sorting is first subjected to a second disintegration and then in whole or in part to a further first disintegration, after which the same is fed to the screening or sorting device (3) for further sorting. 2. A method according to claim 1, characterized in that parts of the regenerated material fraction after the further sorting are subjected to a further second decomposition and then in whole or in part to another first decomposition and then subsequently fed back to the sieve or the sorting device (3). 3. A method according to claim 1 or 2, characterized in that said first and second decomposition steps are repeated until substantially all applied or fed clay material has obtained a predetermined maximum grain size. A method according to any one of the preceding claims, characterized in that said first decomposition comprises that applied or fed clay material and / or regenerated material fraction is first torn down and then overturned. A method according to any one of the preceding claims, characterized in that said second decomposition comprises that said material fraction and / or said parts thereof are subjected to demolition, crushing or decomposition in another way. A method according to claim 5, characterized in that during said second disintegration non-disintegrated material is separated and removed or fed with disintegrated material back to the screening or sorting device (3) for sorting after the material has been subjected to said further first disintegration. Method according to claim 6, characterized in that non-disintegrated material after passing the screening or sorting device (3) is subjected to a further second disintegration. A sorting plant, preferably a mobile sorting plant, for carrying out the method according to claim 1 for sorting clay materials, wherein the sorting plant comprises at least one feeding station (1), in which clay materials to be sorted, applied or fed for discharge on a screen conveyor (2) which feeds the material to a screening or sorting device (3) for sorting into different material fractions of the clay material to be sorted, characterized in that the sorting plant also has a first device (9) for disintegrating applied or fed clay material before sorting it and a second device (10) for disintegrating at least one of the material fractions after sorting and re-feeding it in whole or in part to said first disintegrating device 506 913 ll. (9) for further disintegration thereof before the same when the screening or sorting device (3) for further sorting. A sorting plant according to claim 8, characterized in that said first disintegrating device consists of a unit (9) comprising a shredder (II) and a roller (12) connected to the shredder. Sorting plant according to claim 9, characterized in that said unit (9) is mounted on the screen conveyor (2). ll. Sorting plant according to any one of claims 8 - 10, characterized in that said second disintegration device consists of a unit (10) comprising a shredder, crusher (20) or the like. and a transport device (21) for feeding decomposed material fraction from the shredder, crusher or the like. back to the screening or sorting device (3). Sorting plant according to claim 11, characterized in that the transport device consists of a belt conveyor (21), the discharge end (21a) of which is located above the screen conveyor (2) upstream of the first disintegration device (9) for discharging the material fraction on the screen conveyor. Sorting plant according to one of Claims 8 to 12, characterized in that the second disintegrating device (10) comprises a separating device (26) for separating non-disintegrated and / or disintegrating material therein. Sorting plant according to claim 13, characterized in that the second disintegrating device (10) comprises a feeding device (27, -) 506 913 12. for removing separated material from the sorting plant or for further transport thereof to the belt conveyor. the porter (21) or separately to the feed station (1) or to the screen conveyor (2) upstream of the first disintegration device (9).