Method for forming a bottom of a plastic container, comprising a step of checking the inversion of a diaphragm situated at the bottom of the container

The invention claimed is: 1. A method for forming, in an inversion device ( 1 ), a base ( 6 ) of a filled and sealed plastic container ( 2 ), comprising a step of inverting a diaphragm ( 7 ) situated at the center of the base ( 6 ) of the container ( 2 ) and surrounded by a peripheral standing ring ( 9 ) forming a standing surface, during which step, two opposing pushing members are set in relative motion with respect to one another so as to come into contact with and press on two longitudinally opposed regions of the container, namely, on the one hand, a pusher ( 16 ), arranged below a region situated in the bottom part of the container facing the diaphragm ( 7 ) so as to push this up toward the top of the container and, on the other hand, an upper bearing piece ( 17 ) that comes to bear against a region of the container that is situated in the top part of the container, on the opposite side of the diaphragm ( 7 ), so as to counter the forces of the pushing-up of the diaphragm, while the standing ring is free of any stress so as to allow a longitudinal expansion of the container under the effect of the internal pressure brought about by the movement of the diaphragm when it is driven toward the top of the container; wherein, during a phase of pushing the diaphragm during the inversion thereof, there is sought, on a curve (Ceff) representative of the force applied to the diaphragm ( 7 ) to move same during the inversion, a variation (Var) on this curve defining an outlier that indicates whether the forces applied by the pushing members to the regions with which they are in contact are becoming smaller and thereby indicating a spontaneous acceleration of the rate of inversion of the diaphragm ( 7 ) and an appreciable separation of at least one region of the container from the respective pushing member. 2. The method as claimed in claim 1 , wherein the relative motion of the two members is obtained by moving at least one of the two pushing members using actuating means and the curve (Ceff) representative of the force applied to the diaphragm ( 7 ) in order to move same during inversion, on which said variation (Var) is sought, is a curve (Ceff) representative of the force applied to the actuating means and, therefore, to the diaphragm, in order to move same, and the variation (Var) sought on said curve is representative of a decrease in said applied force. 3. The method as claimed in claim 2 , wherein, with the actuating means that actuate a pushing member consisting of an electric motor, the curve (Ceff) representative of the force applied to said member in order to move same is a curve of the drive current of said motor and the determination of the reduction in the force applied by at least one of the pushing members with respect to the region of the container with which it is in contact is performed by seeking, on said curve (Ceff) of the drive current of said at least one moved member, a variation (Var) that consists in a reduction in the current representative of the reduction in the forces needed to drive said at least one pushing member. 4. The method as claimed in claim 3 , wherein, with the two pushing members being moved, a search is performed indifferently on the curve (Ceff) of the drive current of one of the two members, preferably that of the pusher ( 16 ). 5. The method as claimed in claim 1 , wherein the curve (Ceff) representative of the force applied to the diaphragm ( 7 ) in order to move same during the inversion, on which said variation (Var) is sought, is a curve (Ceff) of acoustic measurements representative of the noise surrounding the base of the container during the inversion of the diaphragm and what is sought on this curve is a variation (Var) in the sound indicative of the appearance of a sound signifying a shock that occurs when a pushing member which has previously suddenly become appreciably distanced from the region of the container with which it was in contact comes back into contact with said region. 6. The method as claimed in claim 1 , wherein the curve (Ceff) representative of the force applied to the diaphragm ( 7 ) in order to move same during the inversion, on which said variation (Var) is sought, is a curve (Ceff) measuring vibrations representative of the vibrations surrounding the base of the container at the time of inversion of the diaphragm, and what is sought on this curve is a variation (Var) indicative of the appearance of accentuated vibrations which occur in the inversion device when the diaphragm suddenly inverts as a result of the relaxation of the forces of the pushing members. 7. The method as claimed in claim 6 , wherein the measurement of the vibrations is performed using sensors arranged at locations of the inversion device that are liable to be subjected to these vibrations, particularly on the pushing members and the actuating means. 8. The method as claimed in claim 1 , wherein the curve (Ceff) representative of the force applied to the diaphragm ( 7 ) in order to move same during the inversion, on which said variation (Var) is sought, is a curve (Ceff) of optical measurements of the distance between each pushing member and the region of the container with which it is initially in contact, and what is sought on this curve is a variation (Var) consisting in an increase in said distance indicative of the appearance of at least a separation between a pushing member and the region of the container with which it was initially in contact during an instant in the diaphragm inversion phase. 9. The method as claimed in claim 8 , wherein the optical measurement is performed using means arranged at the periphery of the container. 10. The method as claimed in claim 1 , wherein the curve (Ceff) representative of the force applied to the diaphragm ( 7 ) in order to move same during the inversion, on which said variation (Var) is sought, is a curve (Ceff) of measurements of the presence of contact between each pushing member and the region of the container with which it was initially in contact, and what is sought on this curve is a variation (Var) consisting in the determination of a loss of contact between at least one pushing member and the region of the container with which it was initially in contact during an instant in the diaphragm inversion phase. 11. The method as claimed in claim 10 , wherein the loss of contact between a pushing member and the region of the container with which it was initially in contact is determined using a contact sensor arranged on said pushing member. 12. A device ( 1 ) for implementing the method as claimed in one of claims 1 through 11 , wherein it comprises claim 1 , further comprising a first pushing member consisting of a mobile pusher ( 16 ) able to move in a vertical direction relative, on the one hand, to a second pushing member consisting of an upper bearing piece ( 17 ) and, on the other hand, to a saddle ( 13 ), which is provided with a central orifice and constitutes an annular receiving plane able to receive the standing ring ( 9 ) of a container before and after the phase of inverting the diaphragm ( 7 ) thereof, and wherein it is designed so that the saddle ( 13 ) is away from the standing ring ( 9 ) of the container during the inversion phase so that, during this phase, a space is created between the standing ring ( 9 ) and the saddle ( 13 ) so as to allow longitudinal expansion of the container under the combined effect of the increase in internal pressure brought about by the reduction in volume due to the inversion and of the forces generated inside the container by the pusher ( 16 ) and the bearing piece ( 17 ). 13. The device ( 1 ) as claimed in claim 12 , further comprising a chassis