Perforating cap for a flexible tube

I claim: 1. An assembly for closing a tube, said assembly comprising: a tube head comprising a neck and a closure liner sealing said neck; and, a cap comprising a punch provided with three teeth, said teeth being configured to cut said closure liner, said teeth being evenly distributed on 180°, while being separated from each other by approximately 90°, wherein said punch has a distal end comprising said teeth, said cap being configured to transition from a flush position in which said at least one tooth are flush with said closure liner, to a perforation position, in which said at least one tooth have perforated said closure liner, then from said perforation position to an end-of-travel position allowing partial cutting of said closure liner the transition from said perforation position to said end-of-travel position being carried out with an angular rotational range below 360°, the height of the teeth decreases in the inverse of the direction of rotation of the cap, said cap being configured so that the angular travel of said teeth overlaps between the perforation position and the end-of-travel position. 2. The assembly according to claim 1 , wherein the height of said teeth is identical. 3. The assembly according to claim 2 , wherein said cap is configured so that an overlap of the angular travel between two angularly adjacent teeth is between 20° and 40°. 4. The assembly according to claim 1 , wherein the height of at least one first tooth of said teeth is higher than, or equal to, the elongation value of said closure liner, said tooth being configured to perforate said closure liner. 5. The assembly according to claim 4 , wherein the height of a second tooth of said teeth is lower than the elongation value of said closure liner, said second tooth being configured to shear said closure liner. 6. The assembly according to claim 1 , wherein the height of said teeth decreases in the inverse of the direction of rotation of the cap. 7. The assembly according to claim 6 , wherein said cap is configured so that an overlap of the angular travel between two angularly adjacent teeth is between 20° and 350°. 8. The assembly according to claim 1 , wherein the height of the one or more teeth is higher than, or equal to, the axial travel of the cap between said perforation position and said end-of-travel position. 9. The assembly according to claim 1 , wherein said cap is configured so that said partial cutting allows said closure liner to remain connected to said tube head via an extension of material on an angular range between 20° and 50°. 10. The assembly according to claim 1 , wherein said cap is configured so that the transition from a standby position, in which the punch is held at a distance from the closure liner, to said end-of-travel position, is carried out with an angular rotational range between one and two turns, preferably one and a half turns, and so that the transition from said perforation position to said end-of-travel position is carried out with an angular rotational range between 90° and 200°. 11. The assembly according to claim 1 , wherein said neck and said cap are configured to hold said cap in place at a distance from the closure liner, prior to a first use. 12. The assembly according to claim 1 , further comprising a detachable ring placed around the neck between a shoulder of the tube head and the cap to hold said cap in place, at a distance from the closure liner, prior to a first use. 13. A closable tube comprising a closure assembly comprising: a tube; and, a closure assembly comprising: a tube head comprising a neck and a closure liner sealing said neck; and, a cap comprising a punch provided with three teeth, said teeth being configured to cut said closure liner, said teeth being evenly distributed on 180°, while being separated from each other by approximately 90°, wherein said punch has a distal end comprising said teeth, said cap being configured to transition from a flush position in which said at least one tooth are flush with said closure liner, to a perforation position, in which said at least one tooth have perforated said closure liner, then from said perforation position to an end-of-travel position allowing partial cutting of said closure liner the transition from said perforation position to said end-of-travel position being carried out with an angular rotational range below 360°, the height of the teeth decreases in the inverse of the direction of rotation of the cap, said cap being configured so that the angular travel of said teeth overlaps between the perforation position and the end-of-travel position. 14. The tube of claim 13 , wherein said cap is configured so that an overlap of the angular travel between two angularly adjacent teeth is between 20° and 40° and so that said partial cutting allows said closure liner to remain connected to said tube head via an extension of material on an angular range between 20° and 50° and so that the transition from a standby position, in which the punch is held at a distance from the closure liner, to said end-of-travel position, is carried out with an angular rotational range between one and two turns, preferably one and a half turns, and so that the transition from said perforation position to said end-of-travel position is carried out with an angular rotational range between 90° and 200°.