Fluid damped check valve, and associated systems and methods

We claim: 1. A check valve assembly, comprising: a housing including— an inlet port; an outlet port; a flow chamber fluidly coupling the inlet port to the outlet port; a damping chamber; and a leak chamber positioned between the flow chamber and the damping chamber, wherein the leak chamber is positioned to receive air at ambient pressure; a piston assembly extending at least partially through the flow chamber to the damping chamber, wherein the piston assembly is movable between a closed position and an open position, and wherein the piston assembly is positioned to sealing engage the housing in the closed position to fluidly disconnect the inlet port from the outlet port; a biasing member operably coupled to the piston assembly, wherein the biasing member is configured to bias the piston assembly to the closed position; and at least one sealing member between the piston assembly and the housing, wherein the at least one sealing member is positioned to fluidly disconnect the flow chamber from the damping chamber. 2. A check valve assembly, comprising: a housing including— an inlet port; an outlet port; a flow chamber fluidly coupling the inlet port to the outlet port; a damping chamber; a leak chamber positioned between the flow chamber and the damping chamber; an outlet channel fluidly connected to the leak chamber, wherein the outlet channel is positioned to pass fluid flow from the leak chamber to outside the housing; a piston assembly extending at least partially through the flow chamber to the damping chamber, wherein the piston assembly is movable between a closed position and an open position, and wherein the piston assembly is positioned to sealingly engage the housing in the closed position to fluidly disconnect the inlet port from the outlet port; a biasing member operably coupled to the piston assembly, wherein the biasing member is configured to bias the piston assembly to the closed position; and at least one sealing member between the piston assembly and the housing, wherein the at least one sealing member is positioned to fluidly disconnect the flow chamber from the damping chamber. 3. The check valve assembly of claim 2 wherein the piston assembly includes a flange, wherein the housing includes a wall at least partially defining the damping chamber, and wherein the biasing member extends between the flange and the wall within the damping chamber. 4. The check valve assembly of claim 2 wherein the inlet port is configured to receive a flow of an operating fluid, and wherein the piston assembly is configured to move from the closed position to the open position when a pressure of the operating fluid at the inlet port exceeds a threshold value to permit the operating fluid to flow from the inlet port to the outlet port. 5. The check valve assembly of claim 2 wherein the at least one sealing member includes (a) a first sealing member positioned between the piston assembly and the housing to fluidly disconnect the flow chamber from the leak chamber and (b) a second sealing member positioned between the piston assembly and the housing to fluidly disconnect the damping chamber from the leak chamber. 6. The check valve assembly of claim 2 , further comprising a damping fluid positioned in the damping chamber. 7. The check valve assembly of claim 6 wherein the damping fluid is selected from the group consisting of a hydraulic fluid, an oil, and a refrigerant. 8. The check valve assembly of claim 2 wherein the damping chamber is positioned to receive a damping liquid. 9. A check valve assembly, comprising: a housing including— an inlet part; an outlet port; a flow chamber fluidly coupling the inlet port to the outlet port; a damping chamber; a pressure equalization chamber; a first leak chamber positioned between the flow chamber and the damping chamber; and a second leak chamber positioned between the damping chamber and the pressure equalization chamber; and piston assembly extending at least partially through the flow chamber, the damping chamber, and the pressure equalization chamber, wherein the piston assembly is movable between a closed position and an open position, wherein the piston assembly is positioned to sealingly engage the housing in the closed position to fluidly disconnect the inlet port from the outlet port, and wherein the piston assembly includes a bore extending between and fluidly coupling the flow chamber with the pressure equalization chamber. 10. The check valve assembly of claim 9 wherein the inlet port is configured to receive a flow of an operating fluid, and wherein the piston assembly is configured to move from the closed position to the open position when a pressure of the operating fluid at the inlet port exceeds a threshold value to permit the operating fluid to flow from the inlet port to the outlet port. 11. The check valve assembly of claim 10 wherein the bore is positioned to receive a flow of the operating fluid when the when the piston assembly is in the open position. 12. The check valve assembly of claim 9 , further comprising a biasing member positioned in the damping chamber, wherein the biasing member is operably coupled to the piston assembly to bias the piston assembly to the closed position. 13. The check valve assembly of claim 9 wherein the first leak chamber and the second leak chamber are each positioned to receive air at ambient pressure. 14. The check valve assembly of claim 9 , further comprising: a first sealing member positioned between the piston assembly and the housing to fluidly disconnect the flow chamber from the first leak chamber; a second sealing member positioned between the piston assembly and the housing to fluidly disconnect the damping chamber from the first leak chamber; a third sealing member positioned between the piston assembly and the housing to fluidly disconnect the damping chamber from the second leak chamber; and a fourth sealing member positioned between the piston assembly and the housing to fluidly disconnect the pressure equalization chamber from the second leak chamber. 15. The check valve assembly of claim 9 wherein the bore fluidly couples the flow chamber with the pressure equalization chamber when the piston assembly is in the open position. 16. A check valve assembly, comprising: a housing including— an inlet port configured to receive a flow of an operating fluid; an outlet port; a flow chamber fluidly coupling the inlet port to the outlet port; a damping chamber positioned to receive a damping fluid, wherein the damping fluid is less compressible than the operating fluid; and a pressure equalization chamber; and piston assembly extending at least partially through the flow chamber, the damping chamber, and the pressure equalization chamber, wherein the piston assembly is configured to move from a closed position to an open position when a pressure of the operating fluid at the inlet port exceeds a threshold value to permit the operating fluid to flow from the inlet port to the outlet port, wherein the piston assembly is positioned to sealingly engage the housing in the closed position to fluidly disconnect the inlet port from the outlet port, and wherein the piston assembly includes a bore extending between and fluidly coupling the flow chamber with the pressure equalization chamber. 17. The check valve assembly of claim 16 wherein the pressure equalization chamber is farther from the flow chamber than the damping chamber. 18. A check valve assembly, comprising: a housing including— an inlet p