Apparatus and method for shaping tubular elements

The invention claimed is: 1. Apparatus for making, starting from tubular elements, drinking straws with a shaped portion formed by a plurality of annular ridges alternating with annular throats made along a segment of predefined length, said apparatus comprising movement means configured to continuously advance said tubular elements, internal shaping means and external shaping means configured to mutually cooperate so as to make said shaped portion acting respectively on an external surface and on an internal surface of each tubular element, said internal shaping means comprising a plurality of shaping spindles disposed parallel to each other and individually distanced and extending along a respective longitudinal axis, each shaping spindle being configured to be individually inserted inside a respective tubular element and to be moved by said movement means along a working path which develops substantially perpendicular to said longitudinal axis; said apparatus is characterized in that said external shaping means comprise a first corrugating unit and a second corrugating unit disposed facing each other, comprising a respective first and second plurality of corrugations defining a respective succession of ridges and throats of deformation, said first and second corrugating units being mutually mobile with respect to each other to advance said tubular elements in rolling during the shaping of said shaped portion, wherein at least one of said first and second plurality of corrugations is obtained on a surface which is at least partly disposed along said working path during the shaping of said shaped portion. 2. Apparatus as in claim 1 , characterized in that said first and second corrugating units cooperate with each other during the shaping so that the ridges of said first corrugating unit are opposite and aligned with the ridges of said second corrugating unit to shape the throats of the shaped portion, while the throats of said first corrugating unit are opposite and aligned with the throats of said second corrugating unit to shape the ridges of the shaped portion. 3. Apparatus as in claim 1 , characterized in that the internal shaping means of the shaping spindles comprise a corrugated portion having a profile formed by a succession of annular ridges and throats which are disposed offset to those of the first and second corrugating units respectively during the shaping of the shaped portion, so that the annular ridges of said internal shaping means are aligned with the throats of said external shaping means to form the ridges of the shaped portion, while the throats of said internal shaping means are aligned with the ridges of said external shaping means to form the throats of the shaped portion. 4. Apparatus as in claim 1 , characterized in that said first and second corrugating units are disposed at a mutual distance, which is such as to define a passage channel configured to be crossed with interference by said tubular elements while being moved by said shaping spindles placed therein. 5. Apparatus as in claim 1 , characterized in that said surface has a length, measured in a direction parallel to said working path, equal to at least ten times said distance measured between said first and said second corrugating unit. 6. Apparatus as in claim 1 , characterized in that said second corrugating unit is mounted fixed. 7. Apparatus as in claim 1 , characterized in that said second plurality of corrugations is obtained on said surface, which has a convex shape, faces said first corrugating unit and is shaped so that said second plurality of corrugations extends along a predefined arc of circumference. 8. Apparatus as in claim 1 , characterized in that said first corrugating unit comprises a rotating member rotatable around a first axis of rotation fixed and parallel to the longitudinal axes of the shaping spindles. 9. Apparatus as in claim 8 , characterized in that said movement means are configured to advance said plurality of shaping spindles along a circumference around a second axis of rotation disposed parallel and not coinciding with said first axis of rotation. 10. Apparatus as in claim 1 , characterized in that the ridges and the throats of said first and second plurality of corrugations are obtained parallel to said working path. 11. Apparatus as in claim 1 , characterized in that it further comprises compression means configured to compress said flexible shaped portion, just formed on said tubular elements, with a determinate compression force oriented according to a direction parallel to said longitudinal axis, thereby pressing said annular ridges and throats of said flexible shaped portion one on the other. 12. Apparatus as in claim 1 , characterized in that the tubular elements are made of paper. 13. Method for making, starting from tubular elements, drinking straws with a shaped portion formed by a plurality of annular ridges alternating with annular throats made along a segment of predefined length, wherein said method comprises: a step of continuously advancing, by means of movement means, a plurality of said tubular elements, a step of inserting, inside each of said tubular elements, a shaping spindle provided with a corrugated portion defining internal shaping means acting on an internal surface of each tubular element and extending along a respective longitudinal axis, a step of moving said shaping spindle inserted inside each of said tubular elements along a working path which develops substantially perpendicular to said longitudinal axis, a deformation step of said tubular elements wherein it is provided to shape said shaped portion by means of external shaping means, acting on an external surface of each tubular element, and cooperating with said internal shaping means, wherein said method is characterized in that said deformation step provides to advance said tubular elements in rolling by means of the relative movement between a first corrugating unit and a second corrugating unit comprised in said external shaping means, wherein said first corrugating unit and said second corrugating unit are disposed facing each other, and comprise a respective first and second plurality of corrugations, defining a respective succession of ridges and throats of deformation, and wherein at least one of said first and second plurality of corrugations is obtained on a surface which contacts said tubular elements during said advancing in rolling. 14. Method as in claim 13 , characterized in that during said deformation step it is provided that said first and second corrugating units cooperate with each other so that the ridges of said first corrugating unit are opposite and aligned with the ridges of said second corrugating unit to form the throats of the shaped portion, while the throats of said first corrugating unit are opposite and aligned with the throats of said second corrugating unit to form the ridges of the shaped portion and that said insertion step provides to dispose said shaping spindle inside each of said tubular elements so that the annular ridges and throats forming said corrugated portion are disposed offset with those of the first and second corrugating units, respectively, so that the annular ridges of said corrugated portion are aligned with the throats of said external shaping means to form the ridges of the shaped portion, while the throats of said corrugated portion are aligned with the ridges of said external shaping means to form the throats of the shaped portion. 15. Method as in claim 13 , characterized in that during said advance in rolling, said tubular elements are moved by said shaping spindles placed t