Apparatus and method for automatically producing tubular elements

The invention claimed is: 1. Apparatus for automatically producing tubular elements to make smoking articles and/or products for food use, comprising a feed unit for feeding, in sequence and one at a time, a plurality of sheets in a flat condition, and a forming unit disposed downstream of said feed unit and configured to form said tubular elements starting from said sheets in a flat condition, said forming unit comprising one or more forming devices, each of which in turn comprises both a forming pin rotatable around an axis of rotation thereof and having an external surface with a truncated cone or cylindrical shape, and also holding means for temporarily holding one of said sheets against said external surface; movement means configured both to move said one or more forming devices along a work path, and also to make said forming pins rotate around the respective axis of rotation; and contrast means disposed in a certain fixed position along said work path to cooperate with said sheets in order to fold them in such a way that they are at least partly wound each one around a corresponding forming pin in order to form one of said tubular elements, wherein said forming device is configured to take said sheet, held by the holding means against the external surface of the forming pin, against the contrast means while the respective forming pin is made to rotate, so as to cause the at least partial winding of the sheet on the external surface of the forming pin during the movement of the forming device along the work path. 2. Apparatus as in claim 1 , wherein said holding means comprise a suction system configured to suction air through a plurality of suction holes present on said external surface of said forming pin so as to selectively hold one of said sheets against said external surface, keeping it adherent thereto. 3. Apparatus as in claim 1 , wherein said holding means comprise a jaw that can be selectively driven to hold one of said sheets against said external surface, keeping it adherent thereto. 4. Apparatus as in claim 1 , wherein said contrast means comprise a first contrast and guide member and a second contrast and guide member, both fixed and disposed on opposite parts with respect to said work path. 5. Apparatus as in claim 4 , wherein said first contrast and guide member and said second contrast and guide member are disposed in succession along said work path. 6. Apparatus as in claim 1 , wherein said feed unit comprises, disposed in sequence along a feed path upstream of said forming unit, a shaping device configured to obtain shapes from a strip which correspond to said sheets still joined together, first advance means configured to make said strip advance along said feed path, a cutting device configured to cut said strip and make, by separating them, said sheets, and second advance means configured to make each of said sheets advance individually in a flat condition toward said forming unit. 7. Apparatus as in claim 1 , wherein said work path of said forming unit is closed in a loop, preferably circular in shape or having at least one rectilinear segment. 8. Apparatus as in claim 1 , further comprising an extraction member configured to extract one tubular element at a time from the respective forming device. 9. Apparatus as in claim 1 , further comprising, along said work path, gluing means configured to apply an adhesive material on each of said sheets, if this is not already present on the sheets. 10. Apparatus as in claim 9 , further comprising a drying station configured to dry the adhesive material after the tubular element has been formed. 11. Method for automatically producing tubular elements, to make smoking articles and/or products for food use, comprising in sequence a feed step in which sheets in a flat condition are fed, in sequence and one at a time, toward a forming unit configured to form said tubular elements starting from said sheets in a flat condition, a positioning step in which each of said sheets is positioned and temporarily held on an external surface of a forming pin of a forming device, said forming pin being rotatable around an axis of rotation thereof, and a movement step in which said forming device, together with the held sheet, is moved along a work path, and a forming step in which said forming device takes said sheet against contrast means which are disposed in a certain fixed position along said work path, while said forming pin, together with the held sheet, rotates around its axis of rotation so as to cause the folding of two flaps of said sheet in such a way that the latter is at least partly wound on the external surface of the forming pin. 12. Method as in claim 11 , wherein in said forming step said forming pin, together with the held sheet, while it rotates around its axis of rotation along the work path, takes a first zone of a first flap of said two flaps to overlap with a second zone of a second flap of said two flaps, at least one of said first and second zones being provided with, or on which there is deposited, an adhesive material. 13. Method as in claim 12 , wherein each of said sheets comprises an internal face configured to contact the external surface of said forming pin, a first lateral edge adjacent to which there is said first zone which has, or on which there is deposited, the adhesive material, and a second lateral edge adjacent to which there is, on an external face opposite said internal face, said second zone, configured to be contacted by said first zone through overlapping, the overlapping being created by the rotation of said forming pin around its own axis of rotation. 14. Method as in claim 11 wherein said forming step comprises a first folding step in which said forming device with said held sheet is made to advance along said work path in such a way that one of said two flaps is taken against a first contrast and guide member of said contrast means in order to fold it against said external surface of said forming pin, and a subsequent second folding step, in which said forming device is made to advance further along said work path in such a way that the other of said two flaps is taken against a second contrast and guide member of said contrast means in order to fold it against said external surface of said forming pin.