DE2526803C2 - - Google Patents

Description

The invention relates to a device for classifying a granular bulk material according to the preamble of claim 1.

Such a device is known (DE-PS 22 00 721). The granular material to be classified falls from such devices Good as a good veil on a parabolic in vertical section shaped trajectory downwards and is made by means of a behind the Suction line arranged well veiled. The suction line is here by intermediate plates in several one above the other existing flat suction channels divided. The leading edges the suction line and the intermediate plates are in one Vertical section of a parabolic curved surface against over a trajectory that describes the good without suction, is slightly reset. With such training A suction line can be used across the entire cross section of the Suction line a homogeneous speed distribution of the suction reach airflow across the good veil, which also means a Regulation of the classification is made possible. Due to the reset arrangement of the front edges of the suction line and the intermediate sheet becomes the trajectory of the granular material the intermediate plates are not affected, whereby a ver Mix the fine particles with the coarser particles is largely avoided. Overall, the Classification quality increased.

Despite these advantages, the known device is so far  still in need of improvement than when using damp granular bulk material with a humidity of more than 5% There is a risk that the granular bulk material on the walls in Area of the mouth of the suction line sticks and there amasses. This can eventually lead to a gradual increase plug the suction gap of the suction line. Another Difficulty results from the fact that after passing of the suction gap on a sliding surface underneath falling coarser granular particles as a result of the impact the suction gap can be thrown back where they are can mix with the fine particles sucked in there. This leads to a deterioration in the classification of the Bulk goods.

The object of the invention is therefore the generic type to develop such that a bouncing back of coarser particles Avoided in the suction gap and when using moist Bulk material a sticking and accumulation of bulk material to the Preventing suction gap bounding walls and thereby the Quality of the classification is improved.

This object is achieved by the characterizing Features contained in claim 1 solved.

The invention ensures that the gas and bulk well existing electricity in the area of the intake gap none too is exposed to a strong change in direction. Due to the ge curved formation of the boundary walls are touching areas with the falling bulk material minimized and thus in In the case of moist bulk material, accumulation and accumulation of Bulk material on the boundary walls largely prevented, so that there is no clogging of the intake gap during operation comes as a result of accumulated bulk goods. Since the lower Be boundary wall of the suction gap is curved upwards a bouncing of the falling bulk material into the suction gap prevents what is also the quality of the classification of the  Bulk goods improved.

The fact that the lower boundary wall after another Formation of the invention compared to the lower sliding surface is slidably arranged, the width of the suction gap are regulated.

According to a further embodiment, the Invention below the upper slide surface, a suction slot provided that is between this sliding surface and the upper Area of the upper boundary wall. This will create a Tearing off the gas-containing stream in the area of the intake gap prevented. Such a break in the gas flow would otherwise the formation of deposits on the upper Be favor the boundary wall of the intake gap.

An embodiment of the invention is described below described the drawing, in its single figure schematically a device is shown in sectional view.

As can be seen from the drawing, the viewing device has an inclined sliding surface 10 for the granular bulk material to be classified, which flows along it and falls off the sliding surface 10 to form a substantially parabolic material veil A. The falling material falls in front of an intake gap 14 , which results in an essentially vertically downward intake flow and is delimited by an upper wall 16 and a downstream lower wall 18 . The boundary wall 18 forms the upper part of a lower sliding surface 12 .

As can be seen from the drawings, the walls 16 and 18 are curved upwards in such a way that the suction gap 14 has an opening which diverges upwards. Furthermore, the lower boundary wall 18 is arranged to be displaceable relative to the lower sliding surface 12 . In this way, the width of the suction gap 14 is adjustable, so that a corresponding change in the granulometric passage is possible. The upwardly curved shape of the wall 18 has several functions. On the one hand, this creates a passage that does not protrude into the trajectory of the grains, on the other hand, a shield is formed between the lower slide surface 12 and the suction gap in such a way that the material does not rebound into the suction gap 14 .

The device is further provided with a suction slot 20 below half of the upper sliding surface 10 , which serves to prevent the gas-containing stream from tearing off at the height of the limiting wall 16 , since such tearing off would favor the formation of deposits on the limiting wall 16 .

Furthermore, the device has a further suction gap 19 which is formed in the same way as the suction gap 14 .

The device can be used in particular for classifying damp goods, such as B. coal, slag, ore, etc. Use, with excellent results in goods with a percentage moisture of more than 5%. Any number of sliding surfaces can be used be, of which the good in the manner described above falls down, d. H. the number of suction gaps is not limited. On the other hand, the device can in simple Cases only have an intake gap.

Claims (3)

1. Apparatus for classifying a granular bulk material, in which the bulk material falls down from a sliding surface to form a substantially parabolic material veil and in front of an adjoining, transverse and wall-bound suction gap past an underlying sliding surface, characterized in that the Boundary walls ( 16 , 18 ) of the suction gap ( 14 ) are arranged in such a way that there is a substantially vertically downward-directed intake flow, the upstream upper boundary wall ( 16 ) being curved in its upper region towards the upper sliding surface ( 10 ) is and the downstream, lower loading boundary wall ( 18 ) forms the upper part of the lower slide surface ( 12 ) and has an upwardly curved shape so that it bounces back from the bulk material from the lower slide surface ( 12 ) and then enters counteracts the suction gap ( 14 ). 2. Device according to claim 1, characterized in that the lower boundary wall ( 18 ) relative to the lower sliding surface ( 12 ) is arranged displaceably. 3. Apparatus according to claim 1 or 2, characterized in that a suction slot ( 20 ) is provided below the upper sliding surface ( 10 ), which is located between this sliding surface ( 10 ) and the upper region of the upper boundary wall ( 16 ).