Machine for producing substantially cylindrical articles

The invention claimed is: 1. A method for producing substantially cylindrical articles ( 2 ) of the tobacco processing industry; each article ( 2 ) comprises a tubular body ( 3 ); a container element ( 4 ), which is arranged in the area of a first end ( 5 ) of the tubular body ( 3 ) and has an end opening ( 6 ) facing outwards, at least one side wall ( 7 ) and a bottom wall ( 8 ) opposite to said end opening ( 6 ); a substantially rigid element ( 9 ), partially housed inside the container element ( 4 ) and having an end portion ( 10 ), which protrudes through said end opening ( 6 ) to the outside of the container element ( 4 ); and loose material ( 14 ), which is arranged inside the container element ( 4 ) between the substantially rigid element ( 9 ) and the bottom wall ( 8 ); the method comprising a conveying step designed to convey the container element ( 4 ), with its end opening ( 6 ) facing upwards, along a first given path (P 1 ) through a loading station (CS) and a first insertion station (IS) arranged downstream of the loading station (CS); a loading step, during which the loose material ( 14 ) is inserted into the container element ( 4 ) in the area of the loading station (CS); a first insertion step, which takes place after the loading step and during which the substantially rigid element ( 9 ) is partially inserted into the container element ( 4 ) by being moved downwards, so as to obtain a combined element ( 67 ); and a second insertion step, which takes place after the first insertion step and during which the combined element ( 67 ) is at least partially inserted into the tubular body ( 3 ). 2. A method according to claim 1 , and comprising a rotation step, which takes place after the first insertion step and during which the combined element ( 67 ) is caused to rotate in such a way that the end opening ( 6 ) is substantially oriented laterally; during the second insertion step, at least one between the combined element ( 67 ) and the tubular body ( 3 ) is moved in a substantially horizontal direction, so as to at least partially insert the combined element ( 67 ) into the tubular body ( 3 ). 3. A method according to claim 2 , and comprising a transfer step, which takes place after the first insertion step and before the rotation step and during which the combined element ( 67 ) is secured, on its upper and lower end, by two blocking elements ( 75 , 76 ) which move in opposite directions and come into contact with the substantially rigid element ( 9 ) and, respectively, with the container element ( 4 ), thus keeping the end opening ( 6 ), engaged by the substantially rigid element ( 9 ), in an upward facing position, and is laterally picked up by a pick-up unit ( 82 *), which is caused to rotate on itself. 4. A method according to claim 3 , wherein, during the transfer step, the pick-up unit ( 82 *), after rotating on itself, places the combined element ( 67 ) on a substantially horizontal conveyor ( 66 ). 5. A method according to claim 1 , and comprising a transport step, during which the combined element ( 67 ) is moved along a second given path (P 2 ) through a second insertion station (IS 2 ), in whose area the second insertion step takes place. 6. A method according to claim 1 , wherein, during the conveying step, a group of container elements ( 4 ) are conveyed together with an intermittent motion, so that, during a stationary period, substantially rigid elements ( 9 ) are substantially simultaneously inserted each into a respective container element ( 4 ) of said group. 7. A method according to claim 1 , and comprising a first control step, which takes place after the loading step and before the first insertion step and during which the amount of loose material ( 14 ) contained in the container element ( 4 ) is estimated. 8. A method according to claim 7 , wherein, during the first control step, the amount of loose material ( 14 ) contained in the container element ( 4 ) is estimated by means of a laser probe ( 83 ). 9. A method according to claim 1 , and comprising a removal step, which takes place after the first insertion step and before the second insertion step and during which the combined element ( 67 ) is removed from the first given path (P 1 ). 10. A method according to claim 1 , and comprising a second control step, during which the force exerted to insert the substantially rigid element ( 9 ) into the container element ( 4 ) is detected. 11. A method according to claim 1 , and comprising a third control step, during which the force exerted to insert the combined element ( 67 ) into the tubular body ( 3 ) is detected. 12. A method according to claim 1 , wherein the container element ( 4 ) is made of paper material; the substantially rigid element ( 9 ) comprises a heat generating element; and, the loose material ( 14 ) comprises a flavour generating material.