Axial magnetic attraction device

The invention claimed is: 1. A device comprising a base part ( 1 ) and a removable member ( 3 ) that is mounted in removable manner on the base part ( 1 ), the base part ( 1 ) and the removable member ( 3 ) including magnetic means ( 15 , 35 ) for generating axial magnetic attraction between the base part and the removable member that is at a maximum in an assembled rest position; the device further comprises mover means ( 4 ), distinct from the removable member ( 3 ), for moving the removable member ( 3 ) axially away from the base part ( 1 ), starting from the assembled rest position, by turning an actuator member ( 7 ) that forms part of the mover means ( 4 ), so as to reduce the magnetic attraction between the base part ( 1 ) and the removable member ( 3 ), and thus facilitate the removal of the removable member ( 3 ); and wherein the device is configured such that rotation of the actuator member ( 7 ) causes removable member ( 3 ) to lift axially without rotating and thereby move axially away from the base part. 2. The device according to claim 1 , wherein the mover means ( 4 ) comprise an axial guide bushing ( 5 ) that is mounted in stationary manner on the base part ( 1 ), an axial thrust cylinder ( 6 ) that is guided axially by the axial guide bushing ( 5 ), and the actuator member ( 7 ) that is rotatably mounted on the axial guide bushing ( 5 ), cam means ( 62 , 72 ) being provided between the actuator member ( 7 ) and the axial thrust cylinder so as to urge the axial thrust cylinder ( 6 ) in axial movement guided by the axial guide bushing ( 5 ) while the actuator member ( 7 ) is being turned. 3. The device according to claim 2 , wherein the axial guide bushing ( 5 ) includes at least one axial cut-out ( 51 ), and the axial thrust cylinder ( 6 ) includes at least one axial guide profile ( 61 ) that is engaged in said at least one axial cut-out ( 51 ) so as to guide the axial thrust cylinder ( 6 ) in axial movement, while preventing it from turning. 4. The device according to claim 2 , wherein the cam means comprise at least one sloping ramp ( 72 ) that is formed by the actuator member ( 7 ), and the axial thrust cylinder ( 6 ) includes at least one lug ( 62 ) that is engaged in said at least one sloping ramp ( 72 ) so as to force the lug ( 62 ) to move along the sloping ramp ( 72 ) while the actuator member ( 7 ) is turning. 5. The device according to claim 4 , wherein the sloping ramp ( 72 ) presents a slope such that the removable member ( 3 ) returns automatically to the assembled rest position under the action of magnetic attraction, when it is placed on the axial thrust cylinder ( 6 ). 6. The device according to claim 1 , wherein the actuator member ( 7 ) comprises an inner ring ( 7 a ) that forms at least one sloping ramp ( 72 ), and an outer hoop ( 7 b ) that is engaged around the inner ring ( 7 a ). 7. The device according to claim 1 , wherein the base part ( 1 ) is mounted on a neck ( 21 ) of a reservoir ( 2 ), and the removable member ( 3 ) is selected from stoppers, applicators, and protective caps. 8. The device according to claim 7 , wherein the base part ( 1 ) includes a skirt ( 11 ) that is engaged around the neck ( 21 ) of the reservoir ( 1 ), an axial guide bushing ( 5 ) being mounted around the skirt ( 11 ) so as to block the skirt around the neck ( 1 ). 9. The device according to claim 7 , wherein the removable member ( 3 ) includes a blind extraction and application space ( 34 ) that is engaged in the neck ( 11 ) of the reservoir ( 1 ) in the assembled rest position. 10. The device according to claim 1 , wherein the removable member ( 3 ) is received entirely in the actuator member ( 7 ) in the assembled rest position. 11. The device according to claim 1 , wherein the magnetic means comprise a permanent magnet ( 15 ) that is secured to the base part ( 1 ) and a movable magnet ( 35 ) that is secured to the removable member ( 3 ), a sealing gasket ( 32 ) being interposed between the two magnets ( 15 , 35 ) in the assembled rest position so as to be flattened by the axial magnetic attraction. 12. The device according to claim 1 , wherein the removable member ( 3 ) includes a shoulder ( 36 ) below which an axial thrust cylinder ( 6 ) is engaged. 13. A fluid dispensing device comprising: a reservoir; a base part secured to the reservoir and having an opening to an inside of the reservoir; a closure mounted in removable manner on the base part, each of the base part and the closure including a respective magnet arranged so that the base part and the closure are held together by an axial magnetic attraction between the respective magnets when closure is mounted on the base part; and a moving mechanism, distinct from the closure, that moves the closure axially away from the base part, the moving mechanism comprising an axial guide bushing mounted in stationary manner on the base part, an axial thrust cylinder guided axially by the axial guide bushing, an actuator member rotatably mounted on the axial guide bushing ( 5 ), a cam between the actuator member and the axial thrust cylinder oriented to urge the axial thrust cylinder in axial movement guided by the axial guide bushing while the actuator member is being turned, such that turning the actuator member reduces the axial magnetic attraction between the base part and closure and thereby facilitates complete separation of the closure from the base part.