Device for inhalation synchronized dispensing of a fluid product

The invention claimed is: 1. An inhalation-synchronized fluid product dispenser device comprising a body ( 10 ) provided with a mouthpiece ( 400 ), a product reservoir ( 100 ) containing a fluid product and a propellant gas being mounted to slide axially relative to said body ( 10 ), a metering valve ( 200 ), comprising a valve member ( 210 ) movable between a rest position and an actuation position, being assembled on said reservoir ( 100 ) for selectively dispensing the fluid product on each actuation, said device further comprising: a blocking element ( 500 ) that is movable and/or deformable between a blocking position in which said metering valve ( 200 ) cannot be actuated, and an actuation position in which said metering valve ( 200 ), can be actuated, a trigger element ( 600 ) that is movable and/or deformable between a locking position in which the trigger element blocks said blocking element ( 500 ) in the blocking position, and a release position wherein the trigger element does not block said blocking element ( 500 ), an inhalation-controlled trigger system comprising an inhalation-sensitive member ( 60 ) that is deformable and/or movable under the effect of inhaling, said inhalation-sensitive member ( 60 ) cooperating with said trigger element ( 600 ), such that when said inhalation-sensitive member ( 60 ) is deformed and/or moved, said inhalation-sensitive member moves and/or deforms said trigger element ( 600 ) towards the release position, thus making it possible to move and/or deform said blocking element ( 500 ) from the blocking position towards the actuation position, and an actuating member ( 800 ) that is movable between a rest position and an actuation position under the effect of a spring ( 850 ), said actuating member ( 800 ) cooperating with said blocking element ( 500 ) such that in blocking position said blocking element ( 500 ), said blocking element ( 500 ) prevents an axial movement of said actuating member ( 800 ), and in actuation position said blocking element ( 500 ), said blocking element ( 500 ) makes it possible to move said actuating member ( 800 ) axially, said device comprising an automatic valve release system, which automatically returns said valve member ( 210 ) from said metering valve ( 200 ) towards the rest position after actuation of the metering valve, independently of the position of said actuating member ( 800 ). 2. The device according to claim 1 , wherein said device comprises a cap ( 1 ) which can be moved between a closed position of the mouthpiece ( 400 ) and an open position of the mouthpiece ( 400 ), said cap ( 1 ) cooperating with the said actuating member ( 800 ) such that, in the closed position, said cap blocks said actuating member ( 800 ) against an axial movement in the body ( 10 ), and when said cap is returned from the open position to the closed position, said cap returns the actuating member ( 800 ) to the rest position by reloading said spring ( 850 ). 3. The device according to claim 2 , wherein said automatic valve release system comprises two levers ( 901 , 902 ), a push element ( 910 ) and a lever spring ( 920 ), said push element ( 910 ) being intended to come into contact with said reservoir ( 100 ), said push element ( 910 ) being connected to a push member ( 810 ), with the interposition of said lever spring ( 920 ). 4. The device according to claim 3 , wherein each lever ( 901 , 902 ) is assembled via studs ( 905 ) so as to pivot in a cam ( 815 ) of said push member ( 810 ) and cooperates with said push element ( 910 ) so as to transmit the force (F) exerted by said spring ( 850 ) to said push element ( 910 ). 5. The device according to claim 4 , wherein in the locked position, before inhalation, said levers ( 901 , 902 ) bear on one side on a shoulder ( 911 ) of said push element ( 910 ), and on the other side said levers ( 901 , 902 ) are in contact with locking fingers ( 115 ) formed in a cover ( 11 ) and which extend axially downwards from the bottom of said cover ( 11 ), said locking fingers ( 115 ) preventing said levers ( 901 , 902 ) from pivoting out of contact with said shoulder ( 911 ) of said push element ( 910 ). 6. The device according to claim 5 , wherein, in the actuation position, after inhalation said levers ( 901 , 902 ) no longer cooperate with said locking fingers ( 115 ) of said cover ( 11 ), such that they can then pivot in said push member ( 810 ) out of contact with said shoulder ( 911 ) of said push element ( 910 ), such that said reservoir ( 100 ) can rise towards its rest position under the effect of the return spring of said valve ( 200 ), with said levers ( 901 , 902 ) passing through holes ( 912 ) in said push element ( 910 ). 7. The device according to claim 6 , wherein when the device is reset, when the user closes said cap ( 1 ), said actuating member ( 800 ) and said push member ( 810 ) return to their rest positions, compressing said spring ( 850 ), and said levers ( 901 , 902 ) move axially with said push member ( 810 ) until they come into contact with said locking fingers ( 115 ) of said cap ( 11 ), which urge said studs ( 905 ) to move radially outwards in said cams ( 815 ), which allows said levers ( 901 , 902 ) to return around said locking fingers ( 115 ), said lever spring ( 920 ) then returning said levers ( 901 , 902 ) to bear on said shoulder ( 911 ) of said push member ( 910 ). 8. The device according to claim 1 , wherein said blocking element ( 500 ) is mounted to pivot on the body ( 10 ) about a pivot axis (B), and said trigger element ( 600 ) is mounted to pivot on the body ( 10 ) about a pivot axis (C), said axes (B) and (C) being parallel. 9. The device according to claim 1 , wherein said actuating member ( 800 ) comprises an axial projection ( 801 ) cooperating with said blocking element ( 500 ), such that in the blocking position of said blocking element ( 500 ), said axial projection ( 801 ) of said actuating member ( 800 ) cooperates with an axial blocking extension ( 501 ) of said blocking element ( 500 ) to thus prevent an axial movement of said actuating member ( 800 ), and in the actuation position of said blocking element ( 500 ), said axial projection ( 801 ) of said actuating member ( 800 ) cooperates with an axial recess ( 502 ) of said blocking element ( 500 ) thereby enabling said reservoir ( 800 ) to move axially. 10. The device according to claim 9 , wherein, in the blocking position of said blocking element ( 500 ), said axial projection ( 801 ) of said actuating member ( 800 ) urges said blocking element ( 500 ) towards the actuation position. 11. The device according to claim 1 , wherein said blocking element ( 500 ) comprises a locking projection ( 510 ) that, in the locking position of the trigger element ( 600 ), cooperates with a locking shoulder ( 610 ) of said trigger element ( 600 ) so as to define a latch that prevents said blocking element ( 500 ) from moving and/or deforming out of the blocking position. 12. The device according to claim 11 , wherein in the locking position of the trigger element ( 600 ), said latch forms a first contact point between said blocking element ( 500 ) and said trigger element ( 600 ), said blocking element ( 500 ) comprising a bearing projection ( 520 ) that, in the locking position of the trigger element ( 600 ), cooperates with a bearing surface ( 620 ) of said trigger element ( 600 ) so as to form, in the locking position of the trigger element ( 600 ), a second contact point between said blocking element ( 500 ) and said trigger element ( 600 ), said second contact point being, in the locking position of the trigger element ( 600 ), at a distance from said axis (C) of the trigger element ( 600 ) t