Machine and method for the automated production of straws

The invention claimed is: 1. A machine comprising at least one feed unit configured to automatically feed a plurality of tubular elements toward a plurality of working units of said tubular elements, to make straws, wherein said plurality of working units comprises: (i) a deformation unit, configured to make at least one bellows on each of said tubular elements so as to be present in each of said straws; (ii) a bending unit, configured to carry out at least one bend on each of said tubular elements, in correspondence with said bellows; (iii) a packaging unit, configured to package each of said straws, wherein said deformation unit, said bending unit and said packaging unit are disposed in sequence and without a break in continuity with respect to an advancement direction of said tubular elements, so that the packaging of said folded straws occurs without interruption after said deformation unit has made the bellows and said bending unit has carried out the bending in correspondence with said bellows, wherein said deformation unit, said bending unit and said packaging unit each comprise a cylindrical member, each of the cylindrical members being rotatable around a respective axis of rotation at a same peripheral speed, wherein said plurality of working units are disposed so that each of the cylindrical members are tangent to each other, and wherein each of the cylindrical members has a peripheral surface provided with retaining means of the straws suitable to support and temporarily retain the straws being formed, disposed parallel to said axis of rotation, and angularly equidistant, from the adjacent straw, by a determinate pitch. 2. The machine as in claim 1 , wherein said packaging unit comprises a cylindrical member rotating around an axis of rotation thereof on which at least a first film is partially wrapped which is configured to receive the straws so that said straws are closed between said first thin film and a second film. 3. The machine as in claim 2 , wherein said packaging unit comprises a first heat-welding means, configured to weld said two films together in a transverse direction with respect to said advancement direction, and a second heat-welding means, configured to weld said two films together in a longitudinal direction parallel to said advancement direction. 4. The machine as in claim 2 , wherein said packaging unit comprises a drawing roller positioned in correspondence with a peripheral surface of said cylindrical member for drawing the first thin film so that the latter is shaped to accommodate a respective straw. 5. The machine as in claim 1 , wherein between said feed unit and said plurality of working units there is a distancing unit configured to distance said tubular elements from each other and take them to said determinate constant pitch each one from the other. 6. The machine as in claim 1 , wherein said feed unit comprises feed means configured to convey said plurality of tubular elements, also initially disposed haphazardly, toward a first cylindrical member rotating around a first axis of rotation thereof and provided with one or more peripheral seatings parallel to said first axis of rotation, each of which is configured to temporarily receive and retain one of said tubular elements. 7. The machine as in claim 6 , wherein the machine it comprises a cutting unit, equipped with a circular blade rotating about an axis of rotation thereof configured to cut each of said tubular elements so as to create a pointed, or obliquely cut, end, on each of said straws. 8. The machine according to claim 7 , wherein said cutting unit is operatively associated with said feed unit or any one of said deformation unit, said bending unit and said packaging unit. 9. The machine as in claim 7 , wherein said cutting unit is disposed near said first cylindrical member, substantially on an opposite side with respect to a distributor member, in a position such that a cutting profile of said circular blade can interfere with said tubular elements retained in said peripheral seatings, and wherein said axis of rotation of said circular blade and said axis of rotation of said first cylindrical member form a determinate angle. 10. The machine as in claim 9 , wherein said axis of rotation of said circular blade and said axis of rotation of said first cylindrical member form a determinate angle between 30° and 60°. 11. The machine as in claim 10 , wherein said axis of rotation of said circular blade and said axis of rotation of said first cylindrical member form a determinate angle of 45°. 12. The machine as in claim 1 , wherein said plurality of tubular elements is made of paper to make straws made of paper. 13. A method to produce straws, comprising a feed step in which a plurality of tubular elements are fed toward a plurality of working units configured to perform corresponding workings on each of said tubular elements, in order to make said straws, wherein said plurality of working units allow to carry out the following working steps in sequence, without a break in continuity: (i) a deformation step, during which at least one bellows is made on each of said tubular elements so as to be present in each of said straws; (ii) a bending step, during which at least one bending is carried out on each of said tubular elements, in correspondence with said bellows; (iii) a packaging step, during which each of said straws is packaged in a suitable material so that each of said straws is hermetically sealed to be hygienically protected before the use thereof, so that said deformation step, said bending step and said packaging step occur one after the other without interruption while said tubular elements advance along an advancement direction-, wherein said deformation unit, said bending unit and said packaging unit each comprise a cylindrical member, each of the cylindrical member being rotatable around a respective axis of rotation at a same peripheral speed, wherein said plurality of working units are disposed so that each of the cylindrical members are tangent to each other, and wherein each of the cylindrical member has a peripheral surface provided with retaining means of the straws to support and temporarily retain the straws being formed, disposed parallel to said axis of rotation, and angularly equidistant, from the adjacent straw, by a determinate pitch. 14. The method as in claim 13 , wherein between said feed step and said at least one working step there is a distancing step to distance said tubular elements from each other and take them to a determinate constant pitch each one from the other. 15. The method as in claim 13 , wherein during said deformation step, said bending step and said packaging step, the straws being formed are retained by retaining means suitable to support and temporarily retain the straws, angularly equidistant from each other with respect to the adjacent one by a determinate pitch. 16. The method as in claim 13 , wherein the method further comprises a cutting step, during which each of said tubular elements is cut to make a pointed, or obliquely cut, end on each of said straws and wherein said cutting step can occur before or after said deformation step, or before or after said bending step, or before said packaging step.