Device for inhalation-synchronized dispensing of a fluid product, and method for assembling said device

The invention claimed is: 1. An inhalation-synchronized fluid product dispenser device comprising a body provided with a mouthpiece, a product reservoir containing a fluid product and a propellant gas being mounted to slide axially relative to said body, a metering valve, comprising a valve member movable between a rest position and an actuation position, being assembled on said reservoir for selectively dispensing the fluid product on each actuation, said device further comprising: a blocking element that is movable and/or deformable between a blocking position wherein said metering valve cannot be actuated, and an actuation position wherein said metering valve can be actuated; a trigger element that is movable and/or deformable between a locking position wherein the trigger element blocks said blocking element in the blocking position, and a release position wherein the trigger element does not block said blocking element; an inhalation-controlled trigger system comprising an inhalation-sensitive member that is deformable and/or movable under the effect of the inhalation, said inhalation-sensitive member cooperating with said trigger element, such that when said inhalation-sensitive member is deformed and/or moved, said inhalation-sensitive member moves and/or deforms said trigger element towards the release position, thus allowing said blocking element to move and/or deform from the blocking position towards the actuation position; an actuating member cooperating with said blocking element, such that in the blocking position of said blocking element, said blocking element prevents an axial movement of said actuating member, and in position for actuating said blocking element, said blocking element enables said actuating member to move axially; a cover comprising a central axial sleeve provided with a lower axial edge; a push member mounted to slide axially in said cover around said central axial sleeve, and intended to cooperate with said actuating member and with said reservoir; and a spring disposed around said central axial sleeve, between a bottom of said cover and said push member, wherein said lower axial edge of said central axial sleeve is deformed after assembly of said push member and said spring around said central axial sleeve, in order to produce a retaining collar for said push member and thus form a pre-assembled subassembly, said pre-assembled subassembly then being fixed. 2. The device according to claim 1 , wherein said device comprises a cap which can be moved, between a closed position of the mouthpiece and an open position of the mouthpiece, said cap cooperating with the said actuating member such that, in the closed position, said cap blocks said actuating member against an axial movement in the body, and when said cap is returned from the open position to the closed position, said cap returns the actuating member to the rest position by reloading said spring. 3. The device according to claim 1 , wherein said blocking element is mounted to pivot on the body about a pivot axis B, and said trigger element is mounted to pivot on the body about a pivot axis C, said axes B and C being parallel. 4. The device according to claim 1 , wherein said lower axial edge is thermally deformed by a heating tool. 5. The device according to claim 1 , comprising an indicator for indicating to the user that the dispensing of fluid product has been made. 6. The device according to claim 5 , wherein said indicator is a visual indicator and/or audible indicator. 7. The device according to claim 1 , comprising an electronic meter. 8. The device according to claim 1 , wherein said pre-assembled subassembly is screwed or snap-fitted to said body. 9. The device according to claim 2 , wherein the cap can be moved by pivoting on the body. 10. A method for assembling an inhalation-synchronized fluid dispenser device, said device comprising: a body provided with a mouthpiece, a product reservoir containing a fluid product and a propellant gas being mounted to slide axially relative to said body, a metering valve, comprising a valve member movable between a rest position and an actuation position, being assembled on said reservoir for selectively dispensing the fluid product on each actuation, said device further comprising: a blocking element that is movable and/or deformable between a blocking position in which said metering valve cannot be actuated, and an actuation position in which said metering valve can be actuated; a trigger element that is movable and/or deformable between a locking position in which the trigger element blocks said blocking element in the blocking position, and a release position wherein the trigger element does not block said blocking element; an inhalation-controlled trigger system comprising an inhalation-sensitive member that is deformable and/or movable under the effect of inhaling, said inhalation-sensitive member cooperating with said trigger element, such that when said inhalation-sensitive member is deformed and/or moved, said inhalation-sensitive member moves and/or deforms said trigger element towards the release position, thus allowing said blocking element to move and/or deform from the blocking position towards the actuation position; an actuating member cooperating with said blocking element, such that in the blocking position of said blocking element, said blocking element prevents said actuating member from moving axially, and in the actuation position of said blocking element, said blocking element enables said actuating member to move axially; a cover comprising a central axial sleeve provided with a lower axial edge; a push member mounted to slide axially in said cover around said central axial sleeve, and intended to cooperate with said actuating member and with said reservoir; a spring disposed around said central axial sleeve, between a bottom of said cover and said push member; said method comprises the following steps: assembling said spring around said central axial sleeve, assembling said push member around said central axial sleeve, deforming said lower axial edge of said central axial sleeve, to produce a retaining collar for said push member and thus form a pre-assembled subassembly, inserting said reservoir into said body, and fixing said pre-assembled subassembly to said body. 11. The method according to claim 10 , wherein said step of fixing said pre-assembled subassembly to said body is performed by screwing or snap-fitting. 12. The method according to claim 10 , wherein said step of deforming said lower axial edge of said central axial sleeve is performed by means of a heating tool that thermally deforms said lower axial edge. 13. The method according to claim 10 , wherein, during the step of fixing said pre-assembled subassembly to said body, said actuating member cooperates with said push member, so as to push said push member axially into said cover so as to load said spring.