Conveyor and method of aligning rod-shaped articles

The invention claimed is: 1. A conveyor for aligning rod-shaped articles, each rod-shaped article comprising a plurality of particles or fibers having a given transverse size or a filling material, wherein the conveyor comprises: a succession of flutes moved along a feed path and configured to hold respective rod-shaped articles or groups of rod-shaped articles, wherein the flutes are oriented perpendicularly to the feed path, and wherein the conveyor further has, at least for each flute, an abutment portion, disposed at a respective end of the flute to define an abutment surface for one end of the rod-shaped article or group of rod-shaped articles housed in the flute, the abutment portion being provided with a suction zone to hold the end of the rod-shaped article or group of rod-shaped articles by suction against the abutment portion; wherein the suction zone is defined by a plurality of suction perforations, connected or connectable to a negative pressure source and whose transverse size is smaller than the transverse size of the particles or fibers of the rod-shaped article or of the filling material of the rod-shaped article. 2. The conveyor according to claim 1 , wherein the suction zone of each abutment portion is defined in a lower portion of the abutment portion disposed in proximity to a bottom surface of the respective flute. 3. The conveyor according to claim 2 , wherein the respective flute is a respective suction flute. 4. The conveyor according to claim 1 , wherein the suction perforations of the suction zone are disposed in at least one chosen from two or more rows and according to a pattern distributed in two directions on the abutment surface. 5. The conveyor according to claim 1 , wherein the suction zone is made monolithically as one piece with the abutment portion. 6. The conveyor according to claim 5 , wherein the suction perforations are made directly in a monobloc part defining the abutment portion and at least the related suction flute. 7. The conveyor according to claim 1 , wherein the suction zone is made in the form of a perforated insert removably insertable in, or applicable to, the abutment portion. 8. The conveyor according to claim 1 , wherein the suction zone is made in the form of a porous element removably insertable in, or applicable to, the abutment portion. 9. The conveyor according to claim 1 , wherein the suction perforations are connected or connectable to a negative pressure source and whose transverse size is smaller than 1 mm. 10. The conveyor according to claim 9 , wherein the transverse size is smaller than 0.8 mm. 11. The conveyor according to claim 10 , wherein the transverse size is smaller than 0.6 mm. 12. The conveyor according to claim 1 , wherein the conveyor is made in the form of a drum comprising a peripheral mantle including the suction flutes and the abutment portions. 13. The conveyor according to claim 12 , wherein the drum is a braking drum wherein each suction flute has a first end that includes the abutment portion and a second end, opposite to the first end, that is open to receive a respective rod-shaped article fed in axially. 14. The conveyor according to claim 13 , wherein the second end of the suction flute has a configuration that converges towards the first end. 15. The conveyor according to claim 12 , wherein the drum is a centering drum including first suction flutes and second suction flutes, each including a respective abutment portion and alternated with each other along the feed path, wherein the abutment surfaces of the first suction flutes and the abutment surfaces of the second suction flutes face axially opposite directions, and wherein the abutment portion of each first suction flute is axially offset relative to the abutment portion of each second suction flute so that the first suction flutes perform longitudinal alignment of corresponding front ends of rod-shaped articles in a first direction and in a first abutment plane, whilst the second suction flutes perform longitudinal alignment of corresponding front ends of rod-shaped articles in a second direction, opposite to the first direction, and in a second abutment plane parallel to and spaced from the first abutment plane; the abutment surfaces of the first and second suction flutes including the suction perforations. 16. The conveyor according to claim 15 , wherein the centering drum also has third suction flutes, alternated with respective ones of the first and second suction flutes and each extending between a respective pair of abutment portions axially aligned with the abutment surfaces of the first and second suction flutes in such a way that the third suction flutes are configured to receive respective rod-shaped articles which are already axially aligned at a position between the first and the second abutment plane. 17. The conveyor according to claim 16 , wherein the abutment surfaces of the third suction flutes are without the suction perforations. 18. The conveyor according to claim 12 , wherein the abutment portions are made as one with the mantle. 19. A method for holding rod-shaped articles in a conveyor, comprising the following steps: providing a conveyor for aligning rod-shaped articles, each rod-shaped article comprising a plurality of particles or fibers having a given transverse size or a filling material, wherein the conveyor comprises: a succession of flutes moved along a feed path and configured to hold respective rod-shaped articles or groups of rod-shaped articles, wherein the flutes are oriented perpendicularly to the feed path, and wherein the conveyor further has, at least for each flute, an abutment portion, disposed at a respective end of the flute to define an abutment surface for one end of the rod-shaped article or group of rod-shaped articles housed in the flute, the abutment portion being provided with a suction zone to hold the end of the rod-shaped article or group of rod-shaped articles by suction against the abutment portion; wherein the suction zone is defined by a plurality of suction perforations, connected or connectable to a negative pressure source and whose transverse size is smaller than the transverse size of the particles or fibers of the rod-shaped article or of the filling material of the rod-shaped article; preparing a succession of the rod-shaped articles, each article comprising a plurality of the particles or fibers having the given transverse size, or the filling material; inserting the succession of rod-shaped articles into respective flutes of the conveyor; simultaneously with or after the step of inserting, axially moving at least some of the articles along the respective flutes until the front ends of the articles come into abutment against the abutment portion of the respective flute; holding the end of the respective rod-shaped article by suction provided through the abutment portion, wherein the step of holding by suction is accomplished by a plurality of the suction perforations whose transverse size is smaller than the transverse size of the fibers or particles of the rod-shaped article or of the filling material of the rod-shaped article, so that these fibers or particles are not sucked in through the suction perforations.