The invention relates to a sieve screen, which can be positioned in a utility machine-operated screen bucket or in a screening station maneuverable with its own actuator. As shown in FIG. 7, a plurality of screening plates (3) are spaced from each other and establish a screening surface (2), which i
The invention relates to a sieve screen, which can be positioned in a utility machine-operated screen bucket or in a screening station maneuverable with its own actuator. As shown in FIG. 7, a plurality of screening plates (3) are spaced from each other and establish a screening surface (2), which is provided with screening slots and on top of which can be placed the material to be screened. Rotatable shafts (4) are present below the screening surface (2). The shafts (4) feature blades (5), which protrude from the shafts and extend through the screening slots to above the screening surface (2). Fraction size is adapted to be changed without removing the shafts (4), by re-grouping the blades (5) and a necessary number of the screening plates (3). The blades (5) can be grouped in such a way on the shafts (4) that at least two blades (5) are set adjacent to each other and the adjacent blades are located within the same screening slot.
대표청구항▼
1. A sieve screen, comprising: a plurality of screening plates (3), spaced from each other and establishing a screening surface (2) which is provided with screening slots and on top of which can be placed the material to be screened,rotatable shafts (4) below the screening surface (2), andblades (5)
1. A sieve screen, comprising: a plurality of screening plates (3), spaced from each other and establishing a screening surface (2) which is provided with screening slots and on top of which can be placed the material to be screened,rotatable shafts (4) below the screening surface (2), andblades (5) which project from the shafts (4) and extend through the screening slots to above the screening surface (2), butcharacterized in that the fraction size is adapted to be changed without removing the shafts (4), by re-grouping the blades (5) and a necessary number of the screening plates (3). 2. A sieve screen according to claim 1, characterized in that the blades (5) are grouped on the shafts (4) in such a way that at least two blades (5) are set in each group adjacent to each other and the adjacent blades are within the same screening slot while the adjacent blades are in the same of different phases, i.e. positions of rotation angle. 3. A sieve screen according to claim 1 or 2, characterized in that between each two screening slots closest to each other there are at least two screening plates (3), which are set adjacent to each other. 4. A sieve screen according to claim 1 or 2, characterized in that the screening plates (3) extend in such a way into spaces between blade groups made up by the blades (5) that the blades are partially within the screening slots in all rotation angle positions of the shaft (4), whereby locations of the blades and the blade groups on the shaft (4) are determined by the screening plates. 5. A sieve screen according to claim 1 or 2, characterized in that the screening plates (3) have their ends in grooves (13) present on a flat mounting bar (12) at a distance from each other which matches the distance between the screening plates and respectively the size of a screening slot. 6. A sieve screen according to claim 1 or 2, characterized in that the gap left between screening plates (3) is larger than the thickness of a blade (5) or a blade group made up by adjacent blades, whereby rotation of the blade or the blade group between screening plates is guided either according to the screening plates or by means of separate mechanical spacer blocks mounted on the shaft. 7. A sieve screen according to claim 1 or 2, characterized in that the sieve screen is located in a sieve screen bucket (1) operable with a utility machine. 8. A sieve screen according to claim 3, characterized in that the screening plates (3) extend in such a way into spaces between blade groups made up by the blades (5) that the blades are partially within the screening slots in all rotation angle positions of the shaft (4), whereby locations of the blades and the blade groups on the shaft (4) are determined by the screening plates. 9. A sieve screen according to claim 3, characterized in that the screening plates (3) have their ends in grooves (13) present on a flat mounting bar (12) at a distance from each other which matches the distance between the screening plates and respectively the size of a screening slot. 10. A sieve screen according to claim 4, characterized in that the screening plates (3) have their ends in grooves (13) present on a flat mounting bar (12) at a distance from each other which matches the distance between the screening plates and respectively the size of a screening slot. 11. A sieve screen according to claim 3, characterized in that the gap left between screening plates (3) is larger than the thickness of a blade (5) or a blade group made up by adjacent blades, whereby rotation of the blade or the blade group between screening plates is guided either according to the screening plates or by means of separate mechanical spacer blocks mounted on the shaft. 12. A sieve screen according to claim 4, characterized in that the gap left between screening plates (3) is larger than the thickness of a blade (5) or a blade group made up by adjacent blades, whereby rotation of the blade or the blade group between screening plates is guided either according to the screening plates or by means of separate mechanical spacer blocks mounted on the shaft. 13. A sieve screen according to claim 5, characterized in that the gap left between screening plates (3) is larger than the thickness of a blade (5) or a blade group made up by adjacent blades, whereby rotation of the blade or the blade group between screening plates is guided either according to the screening plates or by means of separate mechanical spacer blocks mounted on the shaft. 14. A sieve screen according to claim 3, characterized in that the sieve screen is located in a sieve screen bucket (1) operable with a utility machine. 15. A sieve screen according to claim 3, characterized in that the sieve screen is located in a sieve screen bucket (1) operable with a utility machine. 16. A sieve screen according to claim 3, characterized in that the sieve screen is located in a sieve screen bucket (1) operable with a utility machine. 17. A sieve screen according to claim 3, characterized in that the sieve screen is located in a sieve screen bucket (1) operable with a utility machine.
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이 특허에 인용된 특허 (4)
Miller, Steve; Miller, Roy; Campbell, Dane, Electrostatic material separator.
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