CZ8194A3 - Process of precise pneumatic classification and a sorting machine for making the same - Google Patents

Abstract

Powder material is separated into coarse and fine fractions by feeding onto a dispersion plate (6) on top of a rotor (1). The material is divided into two or more parallel streams with particle size increasing away from the axis of the rotor.

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of sharp air sorting of pulverulent materials, in particular cement in a rotary vortex field, and a screen for dispersive wind sorting for its implementation.

BACKGROUND OF THE INVENTION

The prior art solutions of the air sorting of powdered materials achieve some sorting sharpness, but their efficiency in the quality of the fine and coarse product does not meet current needs. By way of example, EP 0023 320 B, wherein the main principle of air sorting is that the feed material to the sorting device forms a screen which is laterally blown through the sorting air stream, separating the fine from the coarse product. The disadvantage of this solution is that when the concentration of material in the screening air increases above 2 kg / m ³ , the sharpness of the screening deteriorates and sorted to a coarse and fine product does not correspond to the required grain size.

It is an object of the present invention to provide a method and to provide a dispersive sorting screen so that the material flow is divided into two or more parallel streams flowing through a single screening air stream. In doing so, the arrangement of the separator by primary separation of the coarse particles is intended to reduce the loading of the sorting space in the vicinity of the rotor blades, and to allow its width to be reduced, which results in a reduction of the sorting air consumption and increase of three axes.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The present invention provides a method of sharp air grading of powdered materials using a vortex air screen. SUMMARY OF THE INVENTION The invention is based on the fact that the flow of material is forced into two or more parallel streams which are transversely blown through a common air stream, wherein the individual parallel streams differ from each other by granularity and the grain size of the parallel streams gradually increase in direction and that the amount and granularity in the parallel streams of material are. controllable, wherein the transverse screening air flow has an axial component which is parallel to the axis of rotation.

The invention also relates to a dispersion air sorter. The principle of the sorter is that between the rotor and the guide elements a sorting space is created, in which distribution elements of the shape, conical rings, placed concentrically one above the other and with the vertical spacing which is greater, are arranged concentrically around the rotor axis and between the rotor blades and guide elements. than the height of the distributor element, thereby forming slits.

Preferably, the sorter is arranged such that the manifolds and guide elements coincide, forming a ring-shaped system with apertures in the form of conical faces turned downward, wherein one or more of the manifolds are vertically displaceable and the slot width between the manifolds and rotor blades is less than 5% preferably 10 rotor diameter.

BRIEF DESCRIPTION OF THE DRAWINGS

Further features of the invention will become apparent from the following description of embodiments with reference to the drawings, in which Fig. 1 schematically shows the overall arrangement of the sorter; Figs. view of arrangement of blades on. rotor, manifold and guide elements, including forming a gap between the rotor blades and manifolds. Fig. 3 shows the arrangement of the holes for the removal of the coarse particles with the bond to the manifolds and guides, including the location of the rotor with the blades and the formation of the wall.

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The screen for the dispersed air sorting of powdered materials in the rotary viral field shown in Fig. 1 consists of a rigid housing formed by a cylindrical casing 7 provided with a material feed inlet 5, a spiral sorting air supply. 10, with the guide and distribution elements 4, 3, from the exhaust air of the sorting air 11, the cover 8 and the hopper 9 with an opening 13. It further comprises a rotatably mounted rotor X circumferentially provided with rotor blades 2 and a top with a spreading disc δ and bottom part through the outlet opening 12.

The arrangement of the sorter is such that a sorting space 21 is formed between the rotor X and the guiding elements 4, in which conical ring distributing elements 3 are arranged concentrically around the rotor axis i and between the rotor blades 2 and the guiding elements 4. concentrically above each other. with a vertical spacing greater than the height of the manifolds. 3, thereby forming slots 18. Distributing and guiding elements

3, 4 coincide, forming a ring system with apertures 20 of FIG. 3 in the form of conical faces turned vertically downwardly, with one or more of the distribution elements 3 being vertically displaceable. A gap 19 of FIG. 2 is formed between the distribution elements 3 and the rotor blades 2, the width of which is less than 5%, preferably 10% of the rotor diameter JL.

The sorter according to the invention operates as follows:

The screening air is supplied via a spiral inlet 10, passing through a system of guide and distribution elements. 4, 3. and enters along the rotor blades. 2 into the interior of the rotor X from where it is discharged through the outlet opening 12 by means of the exhaust air 11.

The sorting material 14 is fed through the inlet 5 to the imaging plate 6, from where it is sprayed to the circumference of the cylindrical casing 7 and fed to the manifold system 3, where it is forced to be divided into two or more parallel streams. primary sorting. Due to the fact that the individual parallel streams differ from one another in granularity and that the grain size of the parallel streams gradually increases in the direction upstream of the screening air, the coarser particles 17 are discharged through the slots 18 into the space between the dividing elements 3.

and guiding elements 4, where they are secondly sorted by supply air and fall into the hopper 9. The other material passes from top to bottom. The coarse particles 16 larger than the sorting limit set by the rotor 1, proceed downwardly to the hopper 9, from where they are discharged together with the coarser particles 17 through the discharge opening 13. as a gross product. Particles smaller than the set sorting limit are carried by the screening air to the rotor 1 and discharged as a fine product 15 through its exhaust port 12 through the exhaust air 11.

Another alternative solution is that the material 14 to be sorted is not fed through the inlet 5 on the distributor plate 6, but directly through the spiral inlet 10 together with the sorting air, so that the inlet 5 and the distributor plate 6 in this alternative solution is not applied.

Claims (5)

A method of sharp air sorting of powdered materials in a sorter utilizing a viral air stream comprising: The material flow is forced to be divided into two or more parallel streams which are transversely blown by a common air stream, wherein the individual parallel streams differ from each other by the grain size and the grain size of the parallel streams gradually increases in direction against the transverse screening air stream. The method of claim. 1, characterized in that the amount and granularity of the parallel material streams are controllable and the transverse screening air stream has an axial component which is parallel to the axis. rotation. The sorter for carrying out the method according to claims 1 and 2 consists of a cylindrical casing of the sorter having an inlet part of the inlet, material, a sorting air inlet with guide elements, a sorting air outlet, a hopper and a rotatably mounted rotor circumferentially provided with blades. a sorting space (21) is formed by the guide elements (4) in which they are concentrically around the rotor axis (1) and between the rotor blades. (2) and guide elements (4) dispensing elements ( 3) shape, conical rings placed concentrically one above the other. with a vertical spacing that is greater than the height of the separating elements (3), thereby forming slits (18). A sorter according to claim 1. 3, characterized in that the dividing and guiding elements (3, 4) coincide, form a ring-shaped ring system (20) in the form of conical surfaces turned vertically downwards, one or more of the dividing elements (3) being vertically displaceable, A sorter according to claim. 3 and 4, characterized in that the width of the slot (19) between the distribution elements (3) and the blades of the rotor (2) is less than 5%, preferably 10% of the diameter of the rotor (i)