Capping machine for applying capsules on respective containers in aseptic or ultraclean conditions

The invention claimed is: 1. A capping machine ( 1 ) for applying capsules ( 2 ) on respective containers ( 3 ), said machine ( 1 ) comprising: a protected area ( 30 ) from impurities in which the containers ( 3 ) pass; an unprotected area ( 31 ) divided from said protected area ( 30 ) by a parting wall ( 32 ) in such a way that said protected area ( 30 ) extends below the parting wall ( 22 ) itself; sealing means ( 22 ) for separating the protected ( 30 ) and unprotected areas ( 31 ) from one another; and at least one operating unit ( 4 ) configured to perform a capping operation on the containers ( 3 ), arranged coaxially to a vertical axis (B) orthogonal to said parting wall ( 22 ) and extending in part above said parting wall ( 22 ) in the unprotected area ( 31 ), in part through an opening ( 25 ) of said parting wall ( 22 ) and in part below said parting wall in the protected area ( 30 ); wherein said operating unit comprises: at least one container support element ( 6 ) arranged in the protected area ( 30 ) and configured to support one container ( 3 ) coaxially to the vertical axis (B); at least one operating head ( 7 ) arranged in the protected area ( 30 ) and configured to apply at least one capsule ( 2 ) on the container ( 3 ) held by the container support element ( 6 ); a motor assembly ( 10 ) arranged in said unprotected area ( 31 ) and configured to drive motion of the operating head ( 7 ) along and/or around said vertical axis (B); a torque control head ( 11 ) interposed between said motor assembly ( 10 ) and said operating head ( 7 ) and configured to limit the maximum torque transmitted from the motor assembly ( 10 ) to an output shaft ( 18 ) coupled to the operating head ( 7 ); and an annular bellows element ( 57 , 70 ) arranged coaxially with said vertical axis (B) and within said protected area ( 30 ) and having a first axial end ( 58 , 70 a ) adjacent to said parting wall ( 22 ) and an opposite second axial end ( 59 , 70 b ) crossed in a sealed manner by said output shaft ( 18 ); said bellows element ( 57 , 70 ) being configured to retract and expand axially following the corresponding movements of said output shaft ( 18 ); wherein said torque control head ( 11 ) is arranged above said parting wall ( 22 ) in the unprotected area ( 31 ), and in that said output shaft ( 18 ) axially crosses both said opening ( 25 ) of said parting wall ( 22 ) and the entire bellows element ( 57 , 70 ); and wherein said output shaft ( 18 ) is supported in a free rotary manner within said opening ( 25 ) of said parting wall ( 22 ) by at least one bearing ( 56 , 65 ); wherein said operating unit ( 4 ) further comprises a sleeve element ( 64 ) coaxially extending through the opening ( 25 ) of the parting wall ( 22 ), radially supported within said opening ( 25 ) by said at least one bearing ( 65 ) in a fixed axial position and in a free rotary manner, axially crossed by said output shaft ( 18 ) and angularly coupled to the output shaft ( 18 ) itself; wherein said output shaft ( 18 ) is coupled to said sleeve element ( 64 ) in a sliding manner along said vertical axis (B); and wherein said first axial end ( 70 a ) of said bellows element ( 70 ) is secured in a sealed manner to an edge of the sleeve element ( 64 ) arranged within the protected area ( 30 ), and said second axial end ( 70 b ) of said bellows element ( 70 ) is secured in a sealed manner to an outer surface of said output shaft ( 18 ). 2. The machine as claimed in claim 1 , further including comprising an annular gasket ( 68 ) mounted at an edge of said opening ( 25 ) facing said protected area ( 30 ) and cooperating in use in contact with an outer surface of the sleeve element ( 64 ) itself. 3. The machine as claimed in claim 2 , wherein said torque control head ( 11 ) comprises: an input element ( 17 ) connected to a driving mandrel ( 8 ) in turn operated by said motor assembly ( 10 ); said output shaft ( 18 ); and a magnetic clutch ( 45 ) for transmitting angular motion about said vertical axis (B) from said input element ( 17 ) to said output shaft ( 18 ). 4. Machine according to claim 2 , comprising: a plurality of operative units ( 4 ) having respective said vertical axis (B) and angularly spaced from each other around a central axis (A) parallel to said vertical axes (B); and a driving shaft ( 5 ) coaxial to said central axis (A) and angularly connected to the operating units ( 4 ) and to said parting wall ( 22 ); wherein said driving shaft ( 5 ), said parting wall ( 22 ) and said operating units ( 4 ) define a rotational part ( 26 ) of said machine ( 1 ) cooperating with a fixed part ( 27 ) of the machine ( 1 ) itself arranged in a radially outermost position; and wherein sealing means ( 22 ) are provided between said rotational part ( 26 ) and said fixed part ( 27 ). 5. The machine as claimed in claim 2 , in which the said protected area is a sterile area ( 30 ). 6. The machine as claimed in claim 1 , wherein said operating unit ( 4 ) further comprises a tubular slider ( 54 ) mounted through said opening ( 25 ) of said parting wall ( 22 ) in a sliding manner along said vertical axis (B) and protruding from the parting wall ( 22 ) itself within said protected area ( 30 ); wherein said output shaft ( 18 ) is radially supported in a fixed axial position and in free rotary manner within said slider ( 54 ) by said at least one bearing ( 56 ) and by a further bearing ( 56 ) adjacent to a bottom axial end ( 60 ) of the slider ( 54 ) itself arranged in the protected area; and wherein said first axial end ( 58 ) of said bellows element ( 57 ) is secured in a sealed manner to an edge of said opening ( 25 ) facing said protected area ( 30 ), and said second axial end ( 59 ) of said bellows element ( 57 ) is secured to said bottom axial end ( 60 ) of said slider ( 54 ). 7. The machine as claimed in claim 6 , wherein said operating unit ( 4 ) further includes an annular gasket ( 62 ) carried by said bottom axial end ( 60 ) of the slider ( 54 ) and radially cooperating in contact with a portion of said output shaft ( 18 ) axially protruding from said slider ( 54 ) towards said container support element ( 6 ). 8. The machine as claimed in claim 1 , wherein said torque control head ( 11 ) comprises: an input element ( 17 ) connected to a driving mandrel ( 8 ) in turn operated by said motor assembly ( 10 ); said output shaft ( 18 ); and a magnetic clutch ( 45 ) for transmitting angular motion about said vertical axis (B) from said input element ( 17 ) to said output shaft ( 18 ). 9. The machine according to claim 1 , comprising: a plurality of operative units ( 4 ) having respective said vertical axis (B) and angularly spaced from each other around a central axis (A) parallel to said vertical axes (B); and a driving shaft ( 5 ) coaxial to said central axis (A) and angularly connected to the operating units ( 4 ) and to said parting wall ( 22 ); wherein said driving shaft ( 5 ), said parting wall ( 22 ) and said operating units ( 4 ) define a rotational part ( 26 ) of said machine ( 1 ) cooperating with a fixed part ( 27 ) of the machine ( 1 ) itself arranged in a radially outermost position; and wherein sealing means ( 22 ) are provided between said rotational part ( 26 ) and said fixed part ( 27 ). 10. The machine as claimed in claim 9 , wherein said sealing means ( 22 ) comprise a fixed annular channel ( 33 ), associated with said fixed part ( 27 ) and partially filled with a sterile liquid, and an annular element ( 34 ) associated with the rotational part ( 26 ), coaxial with the annular channel ( 33 ) and rotatable in use in the liquid of the annular channel ( 33 ). 11. The machine as claimed in claim 1