Flow washer assembly

The invention claimed is: 1. A flow washer assembly comprising: a housing with a channel for fluid flow; a seat positioned in the channel and including an upstream surface; and a washer that is press fit into the channel and engaging the upstream surface of the seat, the washer including a central opening that is sized according to predefined flow characteristics, wherein an outside diameter of the washer that is at least adjacent to an upstream end is greater than an inside diameter of the channel such that the washer assumes a flexed orientation by engagement of the outside diameter of the washer with the inside diameter of the channel when the washer is press fit into the channel. 2. A flow washer assembly comprising: a housing with a channel for fluid flow; a seat positioned in the channel and including an upstream surface; and a washer that is press fit into the channel and engaging the upstream surface of the seat, the washer including a central opening that is sized according to predefined flow characteristics, wherein an outside diameter of the washer that is at least adjacent to an upstream end is greater than an inside diameter of the channel such that the washer assumes a flexed orientation when it is press fit into the channel, and wherein the outside diameter of the washer is tapered across its thickness from a maximum diameter at the upstream end to a minimum diameter at a downstream end such that the washer is part-conical shaped. 3. A flow washer assembly according to claim 1 , wherein the upstream surface is shaped to receive the washer in the flexed orientation. 4. A flow washer assembly according to claim 3 , wherein the upstream surface of the seat is concave. 5. A flow washer assembly according to claim 1 , wherein the channel comprises a shoulder, and wherein the seat is press fit in the channel adjacent to the shoulder. 6. A flow washer assembly according to claim 1 , further comprising a retainer positioned in the channel and engaging the washer, wherein the washer is sandwiched between the seat and the retainer. 7. A flow washer assembly according to claim 6 , wherein the washer comprises a plurality of protrusions on a side thereof facing the retainer, wherein the retainer is positioned in engagement with the protrusions to deflect the washer toward the flexed orientation. 8. A flow washer assembly according to claim 7 , wherein the protrusions are disposed inside a perimeter of the washer surrounding the central opening. 9. A flow washer assembly comprising: a housing with a channel for fluid flow; a seat positioned in the channel and including an upstream surface; a washer press fit in the channel and engaging the upstream surface of the seat on a downstream side, the washer including a plurality of protrusions on an upstream side and a central opening that is sized according to predefined flow characteristics; and a retainer positioned in the channel and engaging the washer such that the washer is sandwiched between the seat and the retainer, wherein the retainer is positioned in engagement with the protrusions to deflect the washer toward a flexed orientation in a fluid flow direction. 10. A flow washer assembly according to claim 9 , wherein an outside diameter of the washer that is at least adjacent to an upstream end is greater than an inside diameter of the channel such that the washer assumes the flexed orientation when press fit into the channel. 11. A flow washer assembly according to claim 10 , wherein the outside diameter of the washer is tapered across its thickness from a maximum diameter at the upstream end to a minimum diameter at a downstream end such that the washer is part-conical shaped. 12. A flow washer assembly according to claim 9 , wherein the upstream surface is shaped to receive the washer in the flexed orientation. 13. A flow washer assembly according to claim 12 , wherein the upstream surface of the seat is concave. 14. A flow washer assembly according to claim 9 , wherein the channel comprises a shoulder, and wherein the seat is press fit in the channel adjacent the shoulder. 15. A method of installing a washer assembly into a housing with a channel for fluid flow, the washer assembly including a washer with a central opening that is sized according to predefined flow characteristics, the method comprising: positioning a seat in the channel, the seat having an upstream surface; and press fitting the washer in the channel until the washer assumes a flexed orientation in a fluid flow direction in engagement with the upstream surface of the seat. 16. A method according to claim 15 , further comprising positioning a retainer in the channel into engagement with the washer such that the washer is sandwiched between the seat and the retainer. 17. A method according to claim 16 , wherein the washer comprises a plurality of protrusions on a side thereof facing the retainer, and wherein the positioning step comprises positioning the retainer in engagement with the protrusions to deflect the washer toward the flexed orientation. 18. A method according to claim 15 , wherein the upstream surface of the seat is concave, the method further comprising deflecting the washer into the concave upstream surface of the seat. 19. A flow washer comprising a plurality of protrusions on an upstream side and a central opening that is sized according to predefined flow characteristics, wherein an outside diameter of the washer that is at least adjacent to an upstream end is greater than the outside diameter adjacent to a downstream end, and wherein the outside diameter of the washer is tapered across its thickness from a maximum diameter at the upstream end to a minimum diameter at the downstream end such that the washer is part-conical shaped.