Domestic appliance system with push-fit fluid coupling

The invention claimed is: 1. A system comprising: a docking station that includes a water supply, a domestic appliance mountable on the docking station, and a push-fit fluid coupling to enable water to flow from the water supply into the domestic appliance in response to the domestic appliance being mounted on the docking station, wherein the push-fit fluid coupling comprises a fluid feeding portion and a fluid receiving portion adapted to cooperate with each other to enable fluid to flow in a downstream direction (D 1 ) from the fluid feeding portion to the fluid receiving portion, wherein the fluid receiving portion comprises an actuator that includes an outer surface and an end surface, and a fluid conduit disposed within the actuator (i) for fluid to flow from the fluid feeding portion to the fluid receiving portion in response to the fluid conduit being open to fluid flow and (ii) for fluid not to flow in response to the fluid conduit being closed to fluid flow, wherein the fluid feeding portion comprises a housing that defines a fluid flow path and includes an opening in which the actuator is intended to be inserted, a chamber arranged in the housing in which fluid is intended to flow, a valve seat and a valve member engaging the valve seat for closing the fluid flow path, and a first piston slidably received in the chamber downstream of the valve member, wherein the fluid feeding portion and the fluid receiving portion are adapted to cooperate with each other such that: a) responsive to the actuator being inserted into the opening, the outer surface of the actuator and the opening cooperate with each other to form a fluid seal preventing fluid in chamber of the fluid feeding portion to leak out from the chamber, wherein the fluid conduit of the actuator remains closed to fluid flow, and b) responsive to the actuator being further inserted into the opening, an end surface of the actuator contacts an first end surface of the first piston to displace the first piston in an upstream direction (D 2 ) until an opposite end surface of the first piston contacts the valve member and lifts the valve member off the valve seat for opening the fluid flow path within the fluid feeding portion and allowing fluid to flow in said downstream direction (D 1 ) to the fluid receiving portion, wherein responsive to fluid flow to the fluid receiving portion via the fluid flow path within the fluid feeding portion, the fluid conduit of the actuator is opened to fluid flow. 2. A system according to claim 1 , wherein the push-fit fluid coupling further comprises a first spring element cooperating with the first piston so as to retain the first piston in a downstream position in which the first piston closes the opening when the actuator is not inserted into the opening. 3. A system according to claim 2 , wherein the first spring element is a coil spring. 4. A system according to claim 1 , wherein the push-fit fluid coupling comprises a second spring element acting on the valve member to retain the valve member in engagement with said valve seat for closing the fluid flow path. 5. A system according to claim 1 , wherein the first piston is spaced from the valve member when the first piston is retained in said downstream position in which the first piston closes the opening, so that the first piston is displaced in an upstream direction (D 2 ) towards the valve member for a given distance (X) prior to making contact with the valve member. 6. A system according to claim 1 , comprising a sealing member extending about the opening to form a fluid seal between the actuator and the opening. 7. A system according to claim 1 , wherein the first piston and the valve member are both maintained in a downstream position when the actuator is not inserted into the opening. 8. A system comprising: a docking station comprising a water supply, a domestic appliance mountable on the docking station, and a push-fit fluid coupling to enable water to flow from the water supply into the domestic appliance when the domestic appliance is mounted on the docking station, wherein the push-fit fluid coupling comprises a fluid feeding portion and a fluid receiving portion adapted to cooperate with each other to enable fluid to flow in a downstream direction (D 1 ) from the fluid feeding portion to the fluid receiving portion, the fluid receiving portion comprising an actuator comprising a fluid conduit for fluid to flow from the fluid feeding portion to the fluid receiving portion, the fluid feeding portion comprising a housing defining a fluid flow path and comprising an opening in which the actuator is intended to be inserted, a chamber arranged in the housing in which fluid is intended to flow, a valve seat and a valve member engaging the valve seat for closing the fluid flow path, a first piston slidably received in the chamber downstream of the valve member, wherein the fluid feeding portion and the fluid receiving portion are adapted to cooperate with each other such that: a) when the actuator is inserted in the opening, the actuator and the opening cooperate with each other to form a fluid seal preventing fluid in chamber to leak out from the chamber, then b) when the actuator is further inserted in the opening, the actuator is adapted to contact the first piston and to displace the first piston in an upstream direction (D 2 ) until the first piston contacts the valve member and lifts the valve member off the valve seat for opening the fluid flow path and allowing fluid to flow in said downstream direction (D 1 ), wherein the fluid receiving portion of the push-fit coupling comprises a housing, a fluid flow path extending through the housing, a second piston being slidably received in said fluid flow path and retained in a position in which the second piston closes the fluid flow path in the absence of a flow of fluid in a downstream direction (D 1 ) along the fluid conduit. 9. A system according to claim 8 , wherein the second piston comprises a seal to form a fluid seal between the second piston and the housing to close the fluid flow path. 10. A system according to claim 1 , wherein the actuator extends from a surface of the fluid receiving portion, and the opening is formed in a surface of the fluid feeding portion, the surface of the fluid receiving portion and the surface of the fluid feeding portion being adapted to contact with each other when the actuator is inserted into the opening. 11. A system according to claim 1 , wherein the actuator has an end surface comprising a channel for fluid to flow from the fluid flow path into the fluid conduit. 12. A system according to claim 1 , wherein the actuator comprises a passage extending outwardly from the fluid conduit for the flow of fluid from the fluid flow path into the fluid conduit. 13. A system according to claim 1 , wherein the fluid feeding portion is arranged in the docking station and the fluid receiving portion is arranged in the domestic appliance. 14. A system according to claim 13 , wherein the domestic appliance is chosen among a set of appliances defined by steam iron, cordless steam iron, garment steamer, cordless garment steamer, and kitchen appliance. 15. A system according to claim 1 , wherein the fluid receiving portion of the push-fit coupling comprises a housing, a fluid flow path extending through the housing, a second piston being slidably received in said fluid flow path and retained in a position in which the second piston closes the fluid flow path in the absence of a flow of fluid in a downstream direction (D 1 ) along the fluid conduit. 16. A syst