Method for manufacturing a container from a preform, with feedback depending on a minimum pressure detected

The invention claimed is: 1. A method of manufacturing a container ( 2 ) by stretch-blow molding in a mold ( 8 ) from a blank ( 3 ) of plastic material, which comprises the operations of: heating the blank ( 3 ) to a predetermined heating temperature (T); inserting the blank ( 3 ) into the mold ( 8 ); stretching the blank ( 3 ) by a rod ( 10 ) moved at a predetermined stretching speed (V E ); at a predetermined instant, called pre-blowing cue (t P ), ordering the opening of a solenoid valve ( 17 ) to place an interior of the blank ( 3 ) in communication with a source ( 15 ) of gas at a predetermined pre-blowing pressure (P P ) and flow rate (D P ); measuring the pressure (P) prevailing inside the blank ( 3 ) as the pressure increases from an actual beginning of a preblowing operation until the pressure reaches a local pressure peak at a point (B), at an instant (t B ) and at a pressure (P B ), after which the pressure decreases; detecting, during the decreasing of the pressure after the point (B) corresponding to the local pressure peak, an instant (t M ), corresponding to a local minimum pressure (P) in the blank ( 3 ); placing in memory the instant (t M ) at which said minimum pressure is produced as well as the corresponding pressure (P M ) prevailing in the blank ( 3 ); comparing the instant (t M ) and the pressure (P M ) of the detected minimum with, respectively, a predetermined instant (t Mth ) and pressure (P Mth ) of a theoretical minimum pressure; if the measured minimum and the theoretical minimum do not coincide, ordering a modification of at least one of the following parameters: pre-blowing pressure (P P ), pre-blowing flow rate (D P ), stretching speed (V E ), heating temperature (T), so that the pressure (P B ) at the time of the local peak and the instant (t B ) at which occurs this local peak are substantially constant with respect to a pressure and an instant of a local peak measured during the earlier manufacturing of a container ( 2 ) or defined by theoretical values. 2. The method according to claim 1 , comprising, if the instant (t M ) and the pressure (P M ) of the detected minimum are, respectively, prior to and lower than the instant and the pressure of the theoretical minimum, an operation comprising lowering the heating temperature (T) or the stretching speed (V E ). 3. The method according to claim 1 , comprising, if the instant (t M ) and the pressure (P M ) of the detected minimum are, respectively, prior to and equal to the instant and pressure of the theoretical minimum, an operation comprising decreasing the pre-blowing pressure (P P ) or flow rate (D P ). 4. The method according to claim 3 , comprising an additional operation comprising decreasing the heating temperature (T) or the stretching speed (V E ). 5. The method according to claim 1 , comprising, if the instant (T M ) and the pressure (P M ) of the detected minimum are, respectively, prior to and higher than the instant and the pressure of the theoretical minimum, an operation comprising decreasing the pre-blowing pressure (P P ) or flow rate (D P ). 6. The method according to claim 1 , comprising, if the instant (t M ) and the pressure (P M ) of the detected minimum are, respectively, equal to and higher than the instant and the pressure of the theoretical minimum, an operation comprising decreasing the pre-blowing pressure (P P ) or flow rate (D P ). 7. The method according to claim 6 , comprising an additional operation comprising increasing the heating temperature (T) or the stretching speed (V E ). 8. The method according to claim 1 , comprising, if the instant (t M ) and the pressure (P M ) of the detected minimum are, respectively, later and higher than the instant and the pressure of the theoretical minimum, an operation comprising increasing the heating temperature (T) or the stretching speed (V E ). 9. The method according to claim 1 , comprising, if the instant (t M ) and the pressure (P M ) of the detected minimum are, respectively, later than and equal to the instant and pressure of the theoretical minimum, an operation comprising increasing the pre-blowing pressure (P P ) or flow rate (D P ). 10. The method according to claim 9 , comprising an additional operation comprising increasing the heating temperature (T) or the stretching speed (V E ). 11. The method according to claim 1 , comprising, if the instant (t M ) and the pressure (P M ) of the detected minimum are, respectively, later and lower than the instant and the pressure of the theoretical minimum, an operation comprising increasing the pre-blowing pressure (P P ) or flow rate (D P ). 12. The method according to claim 1 , comprising, if the instant (t M ) and the pressure (P M ) of the detected minimum are, respectively, equal to and lower than the instant and the pressure of the theoretical minimum, an operation comprising increasing the pre-blowing pressure (P P ) or flow rate (D P ). 13. The method according to claim 12 , comprising an additional operation comprising decreasing the heating temperature (T) or stretching speed (V E ). 14. A non-transitory computer-readable medium comprising a program to be implemented on a control unit of a machine ( 1 ) for manufacturing containers from blanks of plastic material, which comprises instructions for the implementation of the operations of the method according to claim 1 . 15. The method according to claim 1 , wherein the step of detecting the instant corresponding to the local minimum pressure in the blank occurs during pre-blowing of the blank and wherein, when the measured minimum and the theoretical minimum do not coincide, the ordered modification is carried out to cause the measured minimum and the theoretical minimum converge in the next cycle.