DE821910C - Visual process - Google Patents

Description

Visual process The task of every visual process is to <read Good to separate into two or more fractions relating to a property are completely different from one another without any overlap. For example, the task can be one of two or more different ones Material types of existing, heterogeneous visible goods in the different material types to dismantle, or it may be desirable that a type of homogeneous cut according to the grain size is broken down into fractions that are not each other in terms of grain size cover. Such a complete separation into two non-overlapping ones Fractions, for example, can be approximated with the sieving, provided certain Conditions are met. Experience has shown that a quantitative one is completely excluded Separation of a good into two fractions by means of a screening process, in which the sifting takes place in a carrier medium flow. Experience shows that with such visual procedures, be it that the sighting by gravity or by centrifugal force or other Forces is brought about, there is always an overlap of the factions. Man has tried to increase the sharpness of the separation by making it as flawless as possible created physical conditions; however, they can be practically all of them do not realize absolutely clear physical conditions in the cases that occur, that a perfectly sharp division between the factions would be achieved. For example a sharp separation according to the grain size would be perfectly spherical the Particles, absence of additional forces, such as electrical attractive forces that Avoidance of any collisions of particles and a perfectly lawful ideal Assume medium flow. But these prerequisites are practically nowhere to be found to be met.

The invention is now a method that the proper Decomposition into non-overlapping fractions allows. This method is characterized in that the material to be classified is divided into three fractions and the middle fraction is fed back to the feed material. The repatriation of the According to the invention, fractions should be carried out continuously, so that the recycled Fraction is always added back to the feed in approximately the same proportion. In this way, the feed material is first enriched with the returned material Fraction, the number of which is growing. But there between the repatriated faction and the two neighboring factions, according to what has been said before, inevitably a certain amount If there is an overlap, an equilibrium is soon established in continuous operation a, so that with the same composition of the feed, the amount of returned Fraction is constant. The adjustment of the recycled fraction is expedient chosen so that the two neighboring fractions do not or only slightly overlap each other. To control this setting, the middle fraction is used during this setting preferably not returned, but discharged. Here too, the condition must be met be satisfied that the neighboring factions just no longer or only a little overlap. This condition is very difficult to meet anyway and it sets a very sharp visual process. With the less keen normal technical visualization processes, the middle fraction should be relatively large, so that there is no overlap between the two neighboring fractions at all. There is but highly developed modern vision methods, in which the above condition also with a relatively narrow limitation, i.e. a small percentage by weight of the communicate that faction is to some extent to be met. With continuous return the middle fraction then remains the set separation without the sharpness of sight is impaired. The two neighboring factions would, however no longer overlap each other, so would an enrichment in the two Neighboring fractions not contained particles take place and an exact equilibrium cannot be maintained in continuous operation.

In the drawing, the invention is explained using an exemplary embodiment, in which the material to be classified is broken down into several fractions.

In the sifter 21 shown schematically, the material to be classified is divided into four Fractions divided into the classifier through pipes 24, 25, 26 and 27 leaving. The material to be classified is fed through the funnel 23. The fractions are removed from the air streams that transport them by means of cyclones 28, 29, 30, 31 eliminated. Cell locks 32 are arranged below the cyclones. The two outer cyclones empty into bagging devices 34, the two inner cyclones 29 and 3o can, depending on the setting of the flaps 33, in the bagging devices 34 or empty into a return line 35. So either the Fraction of the cyclone 29 or that of the cyclone 30 recycled, while the neighboring fractions are collected in the bagging devices 34. The return takes place in the Example shown in the receiving hopper 23 by means of a screw and bucket elevator. The air purified from the fractions leaves the cyclones at 36 and flows through a collecting line 37 to a blower 38, which blows the air through the pressure line 39 feeds the classifier at 22 again. Analogous to the example shown, a The material to be classified is divided into three fractions, with the middle one Fraction is returned. But it can also be divided into more than four fractions occur. The individual fractions can each be stored in their own collecting device or, as the figure shows, are collected in collecting devices.

The method according to the invention can also be applied when a breakdown of the material to be classified into numerous fractions is desired. In this In case it is necessary to recycle several intermediate fractions with the feed material to feed.

If you want a good to be broken down into only two fractions, however, it is possible to adjust the separation limit over a larger range should be, it is advantageous according to the invention to divide the material into several fractions to be divided and optionally that of the fractions, depending on the desired separation to be fed back to the feed material in the cycle that is currently being separated target.

The continuous recycling of the fractions is expedient with made by an automatic conveyor, for example with a bucket elevator, a screw or by means of pneumatic conveyance.

The method according to the invention can basically be used for any Type of sifter, for example both with circulating air air sifters and with current air sifters or apply to continuous liquid separation devices, provided that it is ensured that a division into three or more political groups he follows.

Claims (3)

PATENT CLAIMS: t. Sighting process with sighting in a carrier medium flow, preferably air flow, characterized in that in each case between two of each other to be separated fractions a fraction is switched on, the feed continuously is fed back and adjusted so that the two fractions to be separated no longer or only slightly overlap each other. . 2. Visual process according to claim i, characterized in that the material to be classified is divided into several fractions is broken down and, depending on the desired separation limit, optionally one of the fractions is fed back to the feed material in the cycle, while each on one Side of this faction lying fractions are discharged together. 3. Procedure according to claims i and 2, characterized in that the return to the feed specific fraction is discharged during the setting period.