Manufacturing machine for the production of disposable cartridges for electronic cigarettes

The invention claimed is: 1. A manufacturing machine ( 8 ) for the production of disposable cartridges ( 1 ) for electronic cigarettes; the manufacturing machine ( 8 ) comprises: a manufacturing drum ( 13 ), which is mounted in a rotatable stepwise manner around a vertical rotation axis ( 14 ) and supports at least one group ( 15 ) of seats ( 16 ), each of which is adapted to receive a corresponding component ( 2 , 7 ) of the disposable cartridge ( 1 ); and a feeding unit ( 21 ), which feeds corresponding components ( 2 , 7 ) of the disposable cartridges ( 1 ) to the seats ( 16 ) of a group ( 15 ) of seats ( 16 ) that is standing still at the feeding unit ( 21 ); wherein each seat ( 16 ) comprises a housing through channel ( 26 ), which crosses the manufacturing drum ( 13 ) from side-to-side and is adapted to contain a component ( 2 , 7 ); wherein each seat ( 16 ) comprises a pair of opposite jaws ( 27 ), which are mounted in the housing channel ( 26 ) and are movable between a gripping position, in which they engage a component ( 2 , 7 ) arranged in the housing channel ( 24 ; 26 ), and a transfer position, in which they do not engage a component ( 2 , 7 ) arranged in the housing channel ( 24 , 26 ); and wherein in each pair of jaws ( 27 ), at least one jaw ( 27 ) comprises a tooth ( 128 ), which is arranged at the top of the jaw ( 27 ) and projects from the jaw ( 27 ) towards the center of the seat ( 16 ), so that, when the two jaws ( 27 ) are arranged in the gripping position, the tooth ( 128 ) holds the component ( 2 , 7 ) inside the seat ( 16 ) at the top. 2. The manufacturing machine ( 8 ) according to claim 1 , wherein each pair of jaws ( 27 ) comprises two teeth ( 128 ), which are arranged at the top of the corresponding jaws ( 27 ) and project from the corresponding jaws ( 27 ) towards the center of the seat ( 16 ), so that, when the two jaws ( 27 ) are arranged in the gripping position, the two teeth ( 128 ) hold the component ( 2 , 7 ) inside the seat ( 16 ) at the top. 3. The manufacturing machine ( 8 ) according to claim 1 , wherein: each disposable cartridge ( 1 ) comprises a tubular casing ( 2 ), which contains a quantity ( 5 ) of tobacco with a tab ( 6 ) of filtering material on top, and a sealing ring ( 7 ), which is applied and welded to the tubular casing ( 2 ); and the component ( 2 , 7 ) that is fed by the feeding unit ( 21 ) is the sealing ring ( 7 ), which is fed to a seat ( 16 ) of the manufacturing drum ( 13 ) by being fitted around a tubular casing ( 2 ) carried by the seat ( 16 ). 4. The manufacturing machine ( 8 ) according to claim 3 and comprising at least one welding unit ( 22 ), which is arranged in a welding station (S 6 ), carries out the ultrasound welding of each sealing ring ( 7 ) to a corresponding tubular casing ( 2 ) carried by a seat ( 16 ), and comprises a corresponding sonotrode ( 102 ), which is arranged in contact with an upper end of the tubular casing ( 2 ) carrying the sealing ring ( 7 ). 5. The manufacturing machine ( 8 ) according to claim 4 , wherein, in the welding station (S 6 ), the two jaws ( 27 ), which are opposite one another and are coupled to each seat ( 16 ), are kept in the gripping position. 6. The manufacturing machine ( 8 ) according to claim 5 , wherein each sonotrode ( 102 ) has at least one recess ( 129 ), which is arranged at a respective tooth ( 128 ) and reproduces in negative the shape of the tooth ( 128 ), so as to carry out, between a tubular casing ( 2 ) and the corresponding sealing ring ( 7 ), an incomplete annular welding, which is interrupted in at least one region of the recess ( 129 ). 7. The manufacturing machine ( 8 ) according to claim 5 , wherein each sonotrode ( 102 ) has two recesses ( 129 ), which are arranged at the two teeth ( 128 ) and reproduce, in negative, the shape of the two teeth ( 128 ), so as to carry out, between a tubular casing ( 2 ) and the corresponding sealing ring ( 7 ), an incomplete annular welding, which is interrupted in two opposite regions of the two recesses ( 129 ). 8. The manufacturing machine ( 8 ) according to claim 4 , wherein, in the welding station (S 6 ) the two jaws ( 27 ), which are opposite one another and are coupled to each seat ( 16 ), are moved from the gripping position to the transfer position. 9. The manufacturing machine ( 8 ) according to claim 8 , wherein each sonotrode ( 102 ) carries out a complete annular welding, namely a 360° welding without interruptions, between a tubular casing ( 2 ) and the corresponding sealing ring ( 7 ). 10. The manufacturing machine ( 8 ) according to claim 1 and comprising: a transfer station (S 4 ) wherein a transfer unit ( 20 ) transfers the tubular casings ( 2 ) to the seats ( 16 ) of the group ( 15 ); and a feeding station (S 5 ) wherein the feeding unit ( 21 ) feeds a corresponding sealing ring ( 7 ) into each tubular casing ( 2 ) carried by a seat ( 16 ). 11. The manufacturing machine ( 8 ) according to claim 10 , wherein: in the feeding station (S 5 ), the jaws ( 27 ) are temporarily moved from the gripping position to the transfer position; and the feeding station (S 5 ) comprises pushers ( 100 ), which vertically push, from the bottom to the top, the tubular casings ( 2 ) carried by the seats ( 16 ) towards the sealing rings ( 7 ). 12. The manufacturing machine ( 8 ) according to claim 11 , wherein the pushers ( 100 ) are shaped so as to impart and preserve a centring of the tubular casings ( 2 ) relative to the seats ( 16 ). 13. A manufacturing machine ( 8 ) for the production of disposable cartridges ( 1 ) for electronic cigarettes; each disposable cartridge ( 1 ) comprises a tubular casing ( 2 ) and a sealing ring ( 7 ) fitted around an upper end of the tubular casing ( 2 ); the manufacturing machine ( 8 ) comprising: a manufacturing drum ( 13 ), which is mounted in a rotatable stepwise manner around a vertical rotation axis ( 14 ) and supports at least one group ( 15 ) of first seats ( 16 ), each of which is adapted to house a corresponding tubular casing ( 2 ); and a feeding unit ( 21 ), which couples corresponding sealing rings ( 7 ) to the tubular casings ( 2 ) carried by the first seats ( 16 ) that are standing still at the feeding unit ( 21 ); wherein the feeding unit ( 21 ) comprises a plurality of second seats ( 89 ), each adapted to house a corresponding sealing ring ( 7 ); wherein the feeding unit ( 21 ) comprises a plurality of first pushers ( 100 ) arranged in a feeding station (S 5 ), each of which is adapted to lift a corresponding tubular casing ( 2 ), which is in a first seat ( 16 ) to move the tubular casing ( 2 ) towards a sealing ring ( 7 ) carried by a second seat ( 89 ); wherein each second seat ( 89 ) comprises a support element ( 130 ), which engages a sealing ring ( 7 ) only and exclusively from the inside; and wherein each first pusher ( 100 ) is adapted to lift a corresponding tubular casing ( 2 ) until the tubular casing ( 2 ) is coupled to a sealing ring ( 7 ) while the sealing ring ( 7 ) is internally engaged by a support element ( 130 ) of a second seat ( 89 ). 14. The manufacturing machine ( 8 ) according to claim 13 , wherein each support element ( 130 ) is adapted to be inserted inside a central hole ( 131 ) of a sealing ring ( 7 ). 15. The manufacturing machine ( 8 ) according to claim 13 , wherein the feeding unit ( 21 ) comprises a plurality of pushing bodies ( 133 ), each associated with a corresponding second seat ( 89 ) and movable for pushing a sealing ring ( 7 ) out of the support element ( 130 ). 16. The manufacturing machine ( 8 ) according to claim 15 , wher