Fluid dispensing apparatus and methods utilizing a resilient nozzle

What is claimed is: 1. A nozzle for a fluid dispensing apparatus configured to dispense fluid, the fluid dispensing apparatus including a valve stem having a valve tip and being moveable in upstream and downstream directions, the nozzle comprising: a nozzle body including a fluid chamber terminating in a discharge outlet configured to discharge fluid from the fluid chamber when the valve stem moves in the downstream direction; an annular valve seat located at the nozzle body upstream from the discharge outlet and configured to contact the valve tip when the valve stem moves in the downstream direction; and a resilient annular portion that extends from the nozzle body in the upstream direction so as to define a portion of the fluid chamber, the resilient annular portion being adjacent to the annular valve seat, the resilient annular portion being positioned to deflect radially outwards and form a sealing engagement with the valve tip before the valve tip contacts the valve seat, as the valve stem moves in the downstream direction, wherein the fluid is discharged from the fluid chamber by separating from the discharge outlet when the valve stem contacts the annular valve seat. 2. The nozzle of claim 1 , wherein the resilient annular portion is configured to bias the valve tip in the upstream direction when the valve tip contacts the annular valve seat. 3. The nozzle of claim 2 , wherein the annular valve seat is circular and includes a first diameter, and the resilient annular portion is circular and includes a second diameter that is greater than the first diameter. 4. The nozzle of claim 1 , wherein the nozzle body further comprises: an upstream surface; and a central bore extending through the upstream surface and defining a base surface, the central bore configured to receive the fluid, wherein the resilient annular portion protrudes from the base surface in a direction towards the upstream surface, the fluid chamber communicating with the central bore when the valve tip is not in the sealing engagement with the resilient annular portion. 5. The nozzle of claim 1 , wherein the fluid chamber includes an outlet portion extending from the annular valve seat to the discharge outlet. 6. The nozzle of claim 5 , wherein the outlet portion is conical, the resilient annular portion includes an inner surface, and the fluid chamber includes a cylindrical portion adjacent to the outlet portion, the cylindrical portion being defined by the inner surface of the resilient annular portion. 7. A fluid dispensing apparatus configured to dispense fluid, comprising: a dispenser body; a valve stem operatively coupled to the dispenser body and having a valve tip, the valve stem being moveable in upstream and downstream directions; and the nozzle of claim 1 . 8. The fluid dispensing apparatus of claim 7 , wherein the resilient annular portion is configured to bias the valve tip in the upstream direction when the valve tip contacts the annular valve seat. 9. The fluid dispensing apparatus of claim 8 , further comprising: an actuator mechanism configured to move the valve stem in the upstream and downstream directions, the actuator mechanism including a spring for biasing the valve stem in the downstream direction when the actuator mechanism is not activated, the valve tip defining a rest position in sealing engagement with the resilient annular portion but spaced apart from the annular valve seat when the bias of the resilient annular portion is balanced with the bias of the spring. 10. The fluid dispensing apparatus of claim 7 , wherein the valve tip includes an outer spherical surface, and the resilient annular portion and the annular valve seat are each configured to contact the outer spherical surface as the valve stem moves in the downstream direction. 11. The fluid dispensing apparatus of claim 10 , wherein the annular valve seat is circular and includes a first diameter, the resilient annular portion is circular and includes a second diameter that is greater than the first diameter, and the outer spherical surface includes a third diameter that is greater than the second diameter. 12. The fluid dispensing apparatus of claim 7 , wherein the nozzle body further comprises: an upstream surface; and a central bore extending through the upstream surface and defining a base surface, the central bore configured to receive the fluid, wherein the resilient annular portion protrudes from the base surface in a direction towards the upstream surface, the fluid chamber communicating with the central bore when the valve tip is not in the sealing engagement with the resilient annular portion. 13. The fluid dispensing apparatus of claim 7 , wherein the fluid chamber includes an outlet portion extending from the annular valve seat to the discharge outlet. 14. The fluid dispensing apparatus of claim 13 , wherein the outlet portion is conical, the resilient annular portion includes an inner surface, and the fluid chamber includes a cylindrical portion adjacent to the outlet portion, the cylindrical portion being defined by the inner surface of the resilient annular portion.