Assembly for dispensing a fluid product

The invention claimed is: 1. A fluid dispenser assembly comprising a fluid reservoir (R), a dispenser member ( 5 ; V), and a dispenser orifice ( 62 ), the fluid reservoir (R) including a piston ( 42 ; P; P; P″) that is movable in leaktight sliding contact in a slide cylinder ( 41 ) over a maximum stroke defined between a start position that corresponds to a substantially full state of the reservoir, and an end position that corresponds to a substantially empty state of the reservoir, the dispenser assembly further comprises a detector ( 35 ; 35 ′) for detecting a physical property, the detector having a detection field that is small relative to the maximum stroke of the piston, the physical-property detector ( 35 ; 35 ′) being arranged outside the fluid reservoir (R) so as to act remotely, through the slide cylinder ( 41 ), to detect a determined physical property that enters into the small detection field that covers an alert position of the piston that is closer to the end position than to the start position, the piston ( 42 ; P; P′; P″) carrying said detectable determined physical property, the detector ( 35 ; 35 ′) delivering, in response to a detection of the physical property, at least one alert signal that is perceptible to a user; and wherein the fluid reservoir (R), the dispenser member ( 5 ; V), and the dispenser orifice are formed by a dispenser (D) that is removably insertable into a casing (B) forming an applicator surface (S) and integrating the detector, which detector is mounted on an integrated circuit board that extends substantially parallel to a plane that contains the fluid reservoir (R), the dispenser member ( 5 ; V) and the dispenser orifice. 2. A dispenser assembly according to claim 1 , wherein the slide cylinder is arranged between the piston ( 42 ; P; P; P″) and the detector ( 35 ; 35 ′), the slide cylinder not preventing the detector ( 35 ; 35 ′) from detecting the determined physical property. 3. A dispenser assembly according to claim 1 , wherein the alert position is reached when the piston ( 42 ; P; P′; P″) has moved through more than 75% of the maximum stroke of the piston from the start position. 4. The dispenser assembly according to claim 1 , wherein the detector comprises a plurality of sensors and wherein the piston ( 42 ; P; P′; P″) reaches a plurality of successive alert positions corresponding to the plurality of sensors as the piston moves towards the end position, the alert positions being successively detected by the corresponding sensors causing the detector ( 35 ; 35 ′) to deliver a plurality of distinct respective alert signals. 5. A dispenser assembly according to claim 1 , wherein the detector ( 35 ; 35 ′) is positioned in contact with the slide cylinder, or in immediate proximity of the slide cylinder, so as to reduce the distance between them and the piston ( 42 ; P; P′; P″). 6. A dispenser assembly according to claim 1 , wherein the detector ( 35 ; 35 ′) comprise a magnetic-field sensor, and the piston ( 42 ; P; P″) is provided with a magnet (M; M′) that generates a magnetic field as the detectable determined physical property. 7. A dispenser assembly according to claim 6 , wherein the magnet (M) presents a volume that is less than 40 mm 3 . 8. A dispenser assembly according to claim 6 , wherein the magnet (M′) is annular with an outside diameter that is a little smaller than the maximum outside diameter of the piston ( 42 ; P′; P″), such that the magnet (M′) is close to the slide cylinder. 9. A dispenser assembly according to claim 1 , wherein the detector comprise a magnetic-field sensor ( 35 ), and the piston (P′) is made by injection-molding plastics material filled with magnetized particles. 10. A dispenser assembly according to claim 1 , wherein the detector comprise a determined-wavelength sensor ( 35 ′), and the piston (P) absorbs waves having said determined wavelength, the determined wavelength is in the red, and the piston (P) is red at least in part. 11. A dispenser assembly, wherein according to claim 1 , the detector comprise a magnetic-field-disruption sensor that emits a magnetic field, and the piston includes an element that is capable of disrupting the magnetic field generated by the magnetic-field-disruption sensor. 12. A dispenser assembly according to claim 1 , wherein the piston ( 42 ; P; P; P″) is a follower piston that moves when the fluid in the reservoir (R) is under suction. 13. The dispenser assembly according to claim 1 , wherein the alert position is reached when the piston ( 42 ; P; P′; P″) has moved through more than 90% of its the maximum stroke from the start position. 14. The dispenser assembly according to claim 1 , wherein the alert position is reached when the piston ( 42 ; P; P′; P″) has moved through 100% of its the maximum stroke of the piston from the start position. 15. The dispenser assembly according to claim 6 , wherein the magnet (M) presents a volume that is less than 30 mm 3 . 16. The dispenser assembly according to claim 6 , wherein the magnet (M) presents a volume that is less than 20 mm 3 .