Valve assembly for dispensers

What is claimed is: 1. A valve for a dispenser, the valve comprising: a valve body comprising: an outer surface and an inner passageway extending about a longitudinal axis, wherein the inner passageway comprises a first passageway opening and a second passageway opening and a passageway surface extending from the first passageway opening to the second passageway opening; and a first valve body surface and a second valve body surface opposite the first valve body surface, wherein the first valve body surface comprises an upper portion extending from the outer surface toward the longitudinal axis and a lower portion extending from the inner passageway toward the outer surface; a valve stem extending through the inner passageway, wherein the valve stem comprises an outer stem surface and an inner stem surface opposite the outer stem surface, wherein the inner stem surface defines a channel; and a resilient member disposed on at least a portion of the first valve body surface, wherein the resilient member is made from a resilient polymeric material and has a non-linear compression profile, and wherein the resilient member is a multi-piece member. 2. The valve of claim 1 , wherein the resilient member comprises a thermoplastic material. 3. The valve of claim 2 , wherein the thermoplastic material has a density of less than about 1.0 g/cc. 4. The valve of claim 2 , wherein the thermoplastic material comprises thermoplastic elastomers. 5. The valve of claim 1 , wherein the resilient member comprises a first resilient member portion and a second resilient member portion. 6. The valve of claim 5 , wherein the first resilient member portion is disposed on at least a portion of the upper portion of the first valve body surface, and wherein the second resilient member portion extends over at least a portion of the lower portion of the first valve body surface such that a gap is formed between the second resilient member portion and the lower portion of the first valve body surface. 7. The valve of claim 5 , wherein the first resilient member portion is made from a first material and the second resilient member portion is made from a second material, and wherein the first material is different than the second material. 8. The valve of claim 5 , wherein the first resilient member portion has a first resilient member height and the second resilient member portion has a second resilient member height. 9. The valve of claim 8 , wherein the first resilient member height and the second resilient member height are different. 10. The valve of claim 8 , wherein the resilient member has a resilient member height. 11. The valve of claim 10 , wherein the dispensing distance is less than about 50% of the resilient member height. 12. The valve of claim 10 , wherein the filling distance is greater than about 50% of the resilient member height. 13. A valve for a dispenser, the valve comprising: a valve body comprising: an outer surface and an inner passageway extending about a longitudinal axis, wherein the inner passageway comprises a first passageway opening and a second passageway opening and a passageway surface extending from the first passageway opening to the second passageway opening; and a first valve body surface and a second valve body surface opposite the first valve body surface, wherein the first valve body surface comprises an upper portion extending from the outer surface toward the longitudinal axis and a lower portion extending from the inner passageway toward the outer surface; a valve stem extending through the inner passageway, wherein the valve stem comprises an outer stem surface and an inner stem surface opposite the outer stem surface, wherein the inner stem surface defines a channel; an engagement member joined to the outer stem surface, wherein the engagement member comprises a first engagement surface and a second engagement surface; and a resilient member disposed on at least a portion of the first valve body surface, wherein the resilient member comprises a first resilient member portion and a second resilient member portion, wherein the first resilient member portion is disposed on the upper portion of the first valve body surface, and wherein a gap is formed between the second resilient member portion and the lower portion of the first valve body surface. 14. The valve of claim 13 , comprising a valve seal comprising a first seal surface and a second seal surface opposite the first seal surface, wherein the first seal surface abuts at least a portion of the passageway surface, and wherein a portion of the second seal surface operatively engages a portion of the outer stem surface. 15. The valve of claim 13 , wherein the first resilient member portion is disposed between the upper portion of the first valve body surface and a portion of the first engagement surface of the engagement member. 16. The valve of claim 15 , wherein the first resilient member portion has an unloaded resilient member height, wherein the valve stem may be positioned in a sealed configuration such that the first resilient member portion is compressed to a preload resilient member height between the upper portion of the valve body and the first engagement surface, wherein the preload resilient member height is less than the unloaded resilient member height. 17. The valve of claim 13 , wherein the valve stem comprises a first orifice extending from the outer stem surface to the inner stem surface and in fluid communication with the channel. 18. The valve of claim 17 , wherein the valve stem comprises a second orifice extending from the outer stem surface to the inner stem surface and in fluid communication with the channel. 19. A valve for a dispenser, the valve comprising: a valve body comprising: an outer surface and an inner passageway extending about a longitudinal axis, wherein the inner passageway comprises a first passageway opening and a second passageway opening and a passageway surface extending from the first passageway opening to the second passageway opening; and a first valve body surface and a second valve body surface opposite the first valve body surface, wherein the first valve body surface comprises an upper portion extending from the outer surface toward the longitudinal axis and a lower portion extending from the inner passageway toward the outer surface; a valve stem extending through the inner passageway, wherein the valve stem comprises an outer stem surface and an inner stem surface opposite the outer stem surface, wherein the inner stem surface defines a channel; an engagement member joined to the outer stem surface, wherein the engagement member comprises a first engagement surface and a second engagement surface; and a resilient member disposed on at least a portion of the first valve body surface, wherein the resilient member comprises a first resilient member portion and a second resilient member portion, wherein the first resilient member portion has a first resilient member portion height and the second resilient member portion has a second resilient member portion height, wherein the first resilient member portion height and the second resilient member portion height are different. 20. The valve of claim 19 , wherein the first resilient member portion height is greater than the second resilient member portion height. 21. The valve of claim 19 , wherein the first resilient member portion height is less than the second resilient member portion height. 22. A valv