The present invention relates to a dynamic air classifier for the separation of granular and powdery materials into fractions of different grain sizes comprising a rotary cage, wherein: said classifier also comprises a recovery chamber for fine materials with a outlet bottom, said
The present invention relates to a dynamic air classifier for the separation of granular and powdery materials into fractions of different grain sizes comprising a rotary cage, wherein: said classifier also comprises a recovery chamber for fine materials with a outlet bottom, said chamber being defined by a casing; said recovery chamber is coaxially arranged in the protrusion of the rotary cage so as to be able to use the vortex created by the rotary cage for cycloning said material; said recovery chamber comprises openings in the casing allowing the passage of the centrifuged material towards ducts for collecting the material located outside the chamber.
대표청구항▼
The invention claimed is: 1. A dynamic air classifier for separation of granular and powdery materials into fractions of different grain sizes comprising: a rotary cage (1) adapted to create a vortex when subjected to air flow, the rotary cage (1) classifying the materials into fine particles and c
The invention claimed is: 1. A dynamic air classifier for separation of granular and powdery materials into fractions of different grain sizes comprising: a rotary cage (1) adapted to create a vortex when subjected to air flow, the rotary cage (1) classifying the materials into fine particles and coarse particles; a recovery chamber (2) having an outlet bottom, said recovery chamber (2) being defined by a casing (5), wherein the recovery chamber (2) receives the fine particles mixed with air from the rotary cage (1); said recovery chamber (2) coaxially arranged in a protrusion of the rotary cage (1), the recovery chamber (2) adapted to use the vortex created by the rotary cage for cycloning the fine particles mixed with air and separating the fine particles from air; and said recovery chamber (2) including a fine particles outlet and an air outlet, wherein the fine particles separated from air exit through the fine particles outlet and a dedusted air exits through the air outlet. 2. The dynamic air classifier as in claim 1, wherein said recovery chamber (2) comprises fixed and/or mobile deflectors (4,7). 3. The dynamic air classifier as in claim 1, wherein said recovery chamber (2) for fine materials is cylindrical or cone-shaped, wherein the recovery chamber (2) is open to the rotary cage (1) at an inlet and includes at least two separate openings on the outlet bottom, wherein the at least two separate openings define the fine particles outlet and the air outlet. 4. The dynamic air lassifier as in claim 1, wherein said recovery chamber (2) has a length that corresponds to 2 to 6 times the length of the rotary cage (1). 5. The dynamic air classifier as in claim 1, wherein said recovery chamber (2) and said rotary cage (1) share the same vertical axis, the recovery chamber (2) being positioned below and protruding from said cage (1). 6. The dynamic air classifier as in claim 1, wherein the deflectors (4) that are positioned in the outlet part of the rotary cage (1) and/or in the recovery chamber (2) are driven by the rotation means of the cage (1) or by a separate device. 7. The dynamic air classifier as in claim 1, wherein the deflectors (4) that are positioned in the outlet part of the rotary cage (1) are attached to said cage (1) itself. 8. The dynamic air classifier as in claim 1, wherein an air-extraction duct (3) passes through the outlet bottom of the recovery chamber (2), said duct having a diameter between 30 and 95% of the bottom diameter of the recovery chamber (2). 9. The dynamic air classifier as in claim 1, wherein a plurality of openings and/or slits are provided at the bottom of the recovery chamber (2). 10. The dynamic air classifier as in claim 9, wherein there are a plurality of ducts (8) below said slits and/or openings, leading to a means for conveying the material. 11. The dynamic air classifier as in claim 9, wherein there are a plurality of ducts (8) below said slits and/or openings, leading to a circular airslide conveying the material to another means of conveyance. 12. The dynamic air classifier as in claim 1, wherein the recovery chamber (2) includes at least one deflector (7) proximate the outlet bottom of the recovery chamber (2), outside of an air-extraction duct (3), wherein the at least one deflector (7) minimises the turbulence near the bottom of the chamber and preventing the fine particles from being picked up again by the air. 13. The dynamic air classifier as in claim 1, wherein the casing (5) of the recovery chamber (2) includes a plurality of openings in a lower portion of the casing (5), at least one of the plurality of openings leading to the ducts for collecting the fine particles. 14. A method of separation according to grain sizes by means of a dynamic air classifier, comprising the following steps: feeding the material to be treated (13) to the rotary cage (1); sorting between large and fine particles in the rotary cage (1) depending on the rotation velocity and air intake; rejecting the large particles towards the refuse chamber (17); recovering the fine materials in the recovery chamber (2) positioned coaxially with the rotary cage; using the vortex created by the rotary cage and possibly further accelerated by mobile or fixed deflectors (4) for cycloning the fine material; separating the dedusted air and the fine particles and extraction of the latter to a means of conveyance. 15. The dynamic air classifier as in claim 1, further comprising a central opening between the rotary cage (1) and the recovery chamber (2), intersecting an axis directly connecting the rotary cage (1) and the recovery chamber (2) so that the recovery chamber (2) uses the vortex created by the rotary cage (1). 16. The dynamic air classifier as in claim 15, wherein no intervening structure is disposed along the axis between the rotary cage (1) and the recovery chamber (2). 17. The dynamic air classifier as in claim 1, wherein the rotary cage (1) comprises a vortex creation apparatus and the recovery chamber (2) is free of any vortex creation apparatus. 18. The dynamic air classifier as in claim 1, wherein the rotary cage includes at least one coarse particles outlet, wherein the coarse particles exit the rotary cage through the at least one coarse particles outlet and the fine particles mixed with air enter the recovery chamber. 19. A dynamic air classifier comprising: a material inlet receiving materials including coarse particles and fine particles; a rotary cage including a vortex creation apparatus to generate a vortex, the rotary cage including a classifier classifying the coarse particles from the fine particles; a coarse particle outlet allowing collection of the classified coarse particles from the rotary cage; a recovery chamber vertically arranged under the rotary cage, the recovery chamber receiving the classified fine particles mixed with air from the rotary cage with the classified fine particles mixed with air continuing to swirl in the vortex from the rotary cage through the recovery chamber; wherein the recovery chamber includes at least one deflector and uses the vortex created by the rotary cage to cyclone and separate fine particles from air; wherein the recovery chamber includes a fine particle outlet and an air outlet, the fine particle outlet coaxially arranged with the air outlet, wherein the fine particle outlet circumscribes the outer periphery of the air outlet, wherein the fine particles separated from air is recovered through the fine particle outlet and a dedusted air exit through the air outlet. 20. The dynamic air classifier of claim 19, wherein the recovery chamber is attached directly to the rotary cage, wherein the rotary cage and the recovery chamber are arranged without any intervening structure between them, thereby allowing the recovery chamber to utilize the vortex generated by the rotary cage, wherein the recovery chamber is free of any vortex creation apparatus and adapted to separate the fine particles from air and recover the fine particles without need of any external filters or cyclones. 21. The dynamic air classifier of claim 19, wherein the recovery chamber is cylindrical or conical, wherein the recovery chamber is conical, an angle of a cone generating line with a revolution axis of the cone is less than 30° , wherein a length of the recovery chamber is between 2 to 5 times a length of the rotary cage.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (7)
Hanke Ernst W. (Beckum DEX), Air classifying process and air classifier.
Svoronos, Spyros A.; Crouch, H. Steven; El-Shall, Hassan El-Sayed; Powers, Kevin W.; Scheiffele, Gary Wayne; Worthen, Rachel Anna; Wright, Steve Robin, Apparatus and methods for separating particles.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.