Device and a method for machining at least one surface of a continuous aluminum or an aluminum alloy strip

The invention claimed is: 1. A device ( 10 ) for machining at least one surface of a continuous strip material (B) of aluminum or an aluminum alloy, comprising a rotating roller brush ( 12 ), a roller length of which can be brought into contact with a surface of the continuous strip material (B), wherein the rotating roller brush ( 12 ) has a diameter between 200 mm and 1000 mm, and wherein the device ( 10 ) is arranged in a strip casting line downstream of an aluminum casting device (G) for casting the continuous strip material (B) and upstream of an adjoining hot rolling device (W) for rolling the continuous strip material (B). 2. The device ( 10 ) according to claim 1 , wherein the diameter of the rotating roller brush ( 12 ) is between 250 mm and 400 mm. 3. The device ( 10 ) according to claim 1 , further comprising a motor drive ( 14 ) that is operatively connected to the rotating roller brush ( 12 ) and drives the rotating roller brush ( 12 ) about an associated axis of rotation (D), wherein the motor drive ( 14 ) is signal connected to a control device(S) and wherein the control device(S) is programmatically configured in such a manner that the rotating roller brush ( 12 ) rotates at a rotational speed of 100 to 3,600 rpm. 4. The device ( 10 ) according to claim 3 , further comprising a gearbox arranged between the motor drive ( 14 ) and the rotating roller brush ( 12 ), wherein the rotational speed of the rotating roller brush ( 12 ) is between 1,200 and 1,800 rpm. 5. The device ( 10 ) according to claim 1 , wherein the rotating roller brush ( 12 ) is arranged such that it can move back and forth transversely to a strip running direction (T) of the continuous strip material (B). 6. The device ( 10 ) according to claim 1 , wherein the rotating roller brush ( 12 ) is arranged such that it can move back and forth parallel to a strip running direction (T) of the continuous strip material (B). 7. The device ( 10 ) according to claim 1 , wherein the rotating roller brush ( 12 ) is arranged on one side of the continuous strip material (B), wherein a support roller is arranged on an opposite side of and in contact with the continuous strip material (B), and wherein the support roller is in alignment with the roller brush ( 12 ). 8. The device ( 10 ) according to claim 1 , further comprising a cleaning device ( 16 ) arranged adjacent to the rotating roller brush ( 12 ) and on a same side of the continuous strip material (B) as the rotating roller brush ( 12 ), by which the surface of the continuous strip material (B) with which the rotating roller brush ( 12 ) is in contact can be cleaned, wherein, by the cleaning device ( 16 ), compressed air can be generated adjacent to the surface of the continuous strip material (B), and/or wherein negative pressure can be generated adjacent to the surface of the continuous strip material (B). 9. The device ( 10 ) according to claim 8 , wherein the cleaning device ( 16 ) has a housing ( 15 ) with an inlet region and an outlet region, wherein the continuous strip material (B) is movable through the housing ( 15 ) from the inlet region towards the outlet region along a strip running direction (T), and wherein the housing ( 15 ) is shielded from a surrounding area. 10. The device ( 10 ) according to claim 9 , wherein the cleaning device ( 16 ) and the rotating roller brush ( 12 ) are combined to form a structural unit, and wherein the rotating roller brush ( 12 ) is received in an encapsulated manner within the housing ( 15 ). 11. The device ( 10 ) according to claim 1 , wherein the rotating roller brush ( 12 ) is part of a plurality of rotating roller brushes ( 12 ) that are arranged along a strip running direction (T) of the continuous strip material (B) on one side thereof, and wherein the plurality of roller brushes ( 12 ) are each equipped with a respective motor drive ( 14 ) and a respective height adjustment device ( 11 ). 12. The device ( 10 ) according to claim 11 , wherein two or more of the plurality of rotating roller brushes ( 12 ) are arranged one behind the other in the strip running direction (T) of the continuous strip material (B), and wherein the two or more of the plurality of rotating roller brushes ( 12 ) are subdivided into segments along their longitudinal extension such that regions including bristles ( 12 m ) alternate with regions without bristles ( 12 f ). 13. The device ( 10 ) according to claim 11 , wherein the rotating roller brush ( 12 ) is part of a plurality of individual brush rollers ( 12 E), wherein the plurality of individual brush rollers ( 12 E) are arranged across a width of the continuous strip material (B), and wherein each of the individual brush rollers ( 12 E) has a respective motor drive ( 14 ) and can be set independently of one another at a distance from the continuous strip material (B). 14. The device ( 10 ) according to claim 1 , further comprising a surface inspection device ( 18 ), which comprises a strip tracking system with a defect detection device and a control device(S), wherein, by the defect detection device, information relating to a type and position of a surface defect on the surface of the continuous strip material (B) with which the rotating roller brush ( 12 ) can be brought into contact is detected, and wherein the rotating roller brush ( 12 ) is controlled by the control device(S) based on the information. 15. The device ( 10 ) according to claim 1 , wherein the rotating roller brush ( 12 ) comprises bristles ( 13 ) made of hardened stainless steel having a tensile strength of at least 200 MPa/mm 2 .