Vacuum cleaner

The invention claimed is: 1. A vacuum cleaner, comprising: an inlet for receiving air to be cleaned, said air including airborne particles; an outlet for expelling received air externally of the vacuum cleaner; a fan for producing a flow of air through the vacuum cleaner by drawing the air to be cleaned through the inlet into the vacuum cleaner and by exhausting air through the outlet; and a separator rotatably arranged around a rotation axis for, during operation, producing a column of rotating air for separating at least a portion of the airborne particles from the flow of air, the separator including a plurality of vanes for producing the column of rotating air, each of said vanes having a leading face and a trailing face, where the leading faces of the vanes are inclined with respect to the rotation axis for conveying the airborne particles along a path that is at least partially in an axial direction and leads to a zone where a ratio of drag forces tending to guide the airborne particles into the separator relative to centrifugal forces tending to expel said airborne particles away from the separator is smaller than said ratio outside of said zone and where each leading face has a first portion and a second portion, said first portion being inclined in a positive direction and said second portion being oppositely inclined in a negative direction, for guiding airborne particles along said path. 2. A vacuum cleaner according to claim 1 where the fan is coaxially arranged with the separator, each vane having a proximal and a distal end, the proximal ends being between the fan and the distal ends, and where the leading faces are inclined with respect to the rotation axis in a direction for guiding airborne particles towards the distal ends. 3. A vacuum cleaner according to claim 1 where the separator comprises at least one plate extending perpendicular to the rotation axis, the vanes being arranged on at least one side of the plate, and where the leading faces of the vanes are inclined for conveying the airborne particles in an axial direction towards the plate. 4. A vacuum cleaner according to claim 1 where the separator comprises first and second plates extending perpendicular to the rotation axis, said plates being connected to opposite axial ends of the vanes, and where the opposite axial directions extend towards the opposite axial ends. 5. A vacuum cleaner according to claim 3 where the at least one plate has a radius, said radius being larger than a maximum distance between a tip of the vanes and the rotation axis. 6. A vacuum cleaner according to claim 1 where, in at least one plane perpendicular to the rotation axis, each vane is curved from an inner edge to an outer edge in a direction opposite to the direction of rotation and where the inner edge is located closer to the rotation axis than the outer edge. 7. A vacuum cleaner according to claim 1 where each of the vanes has a portion that is helically arranged. 8. A vacuum cleaner according to claim 1 where each inclined leading face has an angle with respect to the rotation axis, said angle increasing along a length of the leading face in the axial direction into which the airborne particles are forced by the inclined faces.