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 to make straws, said one or more working units comprising: (i) a deformation unit configured to make at least one bellows on each of said tubular elements; and (ii) a cutting unit, configured to cut each of said tubular elements to make straws with bellows, wherein said deformation unit is disposed upstream of said cutting unit, with respect to an advancement direction of said tubular elements, so that said cutting unit cuts said tubular elements only after said deformation unit has made said bellows on said tubular elements, and wherein said cutting unit comprises both a cylindrical member rotating around an axis of rotation and provided with a plurality of gripping elements configured to temporarily hold said tubular elements, and a rotating circular blade configured to cut said tubular elements. 2. The machine as in claim 1 , wherein said deformation unit is configured to make said at least one bellows as a flexible shaped portion defined by a succession of ridges and annular grooves obtained on said tubular elements. 3. The machine as in claim 1 , wherein said deformation unit is configured to make two bellows distanced on each of said tubular elements before they are cut by said cutting unit. 4. The machine as in claim 3 , wherein said cutting unit is configured to cut each of said tubular elements in a portion comprised between said two bellows. 5. The machine as in claim 1 , wherein said cutting unit is disposed and configured so as to cut each of said tubular elements along a transverse direction with respect to a longitudinal extension of the tubular element, so as to make a pointed end. 6. The machine as in claim 1 , wherein it further comprises a distancing unit disposed downstream of said feed unit and configured to distance said tubular elements from each other and take them to a determinate distance, at a constant pitch each one from the other. 7. The machine as in claim 1 , wherein said feed unit is configured to convey said plurality of tubular elements, toward a further cylindrical member rotating around a further axis of rotation and provided with one or more peripheral seatings parallel to said further axis of rotation, each seating being configured to temporarily receive and hold one of said tubular elements. 8. The machine as in claim 7 , wherein said feeding unit comprise at least one conveyor belt having a terminal portion disposed in the proximity of a distributor member configured to vertically stack one on top of the other said tubular elements coming from said conveyor belt to then exit, one at a time, toward said first further rotating cylindrical member. 9. The machine as in claim 1 , wherein the axis of rotation of said circular blade and the axis of rotation of said cylindrical member form a determinate angle between them to obliquely cut, with respect to a longitudinal extension, said tubular elements. 10. The machine as in claim 9 , wherein the axis of rotation of said circular blade and the axis of rotation of said cylindrical member form an angle comprised between 30° and 60°. 11. The machine as in claim 1 , wherein said gripping elements are configured to move automatically and in an alternate manner, due to the rotation of said cylindrical member, parallel to the axis of rotation of said cylindrical member between a first operating position in which said gripping elements are closer to each other, before and during the cutting of the corresponding tubular element by said circular blade, and a second operating position in which said gripping elements are more distanced from each other, after said cutting. 12. The machine as in claim 11 , wherein said gripping elements are moved between said first and second operating positions by means of a cam element provided on said cylindrical member. 13. A method to produce straws comprising a feeding 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 working units allow to carry out at least: a deformation step, during which at least one bellows is made on each of said tubular elements; and a cutting step, during which each of said tubular elements is cut to make said straws with bellows; wherein said deformation step to make said at least one bellows is carried out before said cutting step to make said straws with bellows, and wherein said cutting step has been carried out by a rotating circular blade, which cuts said plurality of tubular elements temporarily held by a plurality of gripping elements provided on a cylindrical member rotating around an axis of rotation. 14. The method as in claim 13 , wherein said deformation step said at least one bellows is made as a flexible shaped portion defined by a succession of ridges and annular grooves. 15. The method as in claim 13 , wherein in said deformation step two bellows distanced from each other are made on each of said tubular elements. 16. The method as in claim 15 , wherein in said cutting step each of said tubular elements is cut in a portion comprised between said two bellows. 17. The method as in claim 13 , characterized in that it wherein said method further comprises a distancing step for distancing said tubular elements from each other and bringing them to a determinate distance, at a constant pitch each one from the other. 18. The method as in claim 13 , wherein the tubular elements are made of paper.