A valve includes a valve housing. A bore is in the valve housing. An inlet supply port fluidly communicates a pressurized supply fluid to the bore. A piston is movably positioned in the bore based on the pressure of the supply fluid. A portion of the piston extends into a frusto-conically shaped por
A valve includes a valve housing. A bore is in the valve housing. An inlet supply port fluidly communicates a pressurized supply fluid to the bore. A piston is movably positioned in the bore based on the pressure of the supply fluid. A portion of the piston extends into a frusto-conically shaped portion of the bore. A sealing member is associated with the portion of the piston sealingly engaging a surface of the frusto-conically shaped portion of the bore based on the pressure of the supply fluid. An inlet valve, movably positioned in the bore, is biased to sealingly engage a wall of the bore based on the pressure of the supply fluid. A control pressure supply port fluidly communicates a pressurized control fluid to the bore through the valve housing. A control pressure delivery port fluidly communicates with the control pressure supply port, via the bore, based on the pressure of the supply fluid. A venting port fluidly communicates with the control pressure delivery port, via the bore, based on the pressure of the supply fluid.
대표청구항▼
1. A valve, comprising: a valve housing;a bore in the valve housing;an inlet supply port fluidly communicating a pressurized supply fluid to the bore;a piston movably positioned in the bore based on the pressure of the supply fluid, a portion of the piston extending into a frusto-conically shaped po
1. A valve, comprising: a valve housing;a bore in the valve housing;an inlet supply port fluidly communicating a pressurized supply fluid to the bore;a piston movably positioned in the bore based on the pressure of the supply fluid, a portion of the piston extending into a frusto-conically shaped portion of the bore, a sealing member associated with the portion of the piston sealingly engaging a surface of the frusto-conically shaped portion of the bore based on the pressure of the supply fluid;an inlet valve, movably positioned in the bore, biased to sealingly engage a wall of the bore based on the pressure of the supply fluid;a control pressure supply port fluidly communicating a pressurized control fluid to the bore through the valve housing;a control pressure delivery port fluidly communicating with the control pressure supply port, via the bore, based on the pressure of the supply fluid; anda venting port fluidly communicating with the control pressure delivery port, via the bore, based on the pressure of the supply fluid. 2. The valve as set forth in claim 1, wherein: the surface of the frusto-conically shaped portion of the bore is angled at about 15 degrees±0.5 degrees relative to a longitudinal axis of the portion of the piston extending into the frusto-conically shaped portion of the bore. 3. The valve as set forth in claim 1, wherein: the sealing member does not sealingly engage the surface of the frusto-conically shaped portion of the bore, and the inlet valve sealingly engages the wall of the bore, when the pressure of the supply fluid is below a first predetermined threshold;the inlet valve is movably positioned against the bias to unseal from the wall of the bore when the pressure of the supply fluid is above a second predetermined threshold; andthe second predetermined threshold is greater than the first predetermined threshold. 4. The valve as set forth in claim 3, wherein: the sealing member sealingly engages the surface of the frusto-conically shaped portion of the bore when the pressure of the supply fluid is above the second predetermined threshold. 5. The valve as set forth in claim 4, wherein: the control pressure delivery port fluidly communicates with the control pressure supply port when the pressure of the supply fluid is above the second predetermined threshold. 6. The valve as set forth in claim 5, wherein: the sealing member is an o-ring around the portion of the piston extending into the frusto-conically shaped portion of the bore; andthe o-ring is sized to maintain the sealing engagement with the surface of the frusto-conically shaped portion when the pressure of the supply fluid is above the second predetermined threshold. 7. The valve as set forth in claim 5, wherein: the venting port fluidly communicates with the control pressure delivery port when the pressure of the supply fluid is less than the first predetermined threshold. 8. The valve as set forth in claim 1, wherein: when the pressure of the supply fluid is below a first predetermined threshold, the sealing member does not sealingly engage the surface of the frusto-conically shaped portion of the bore, and the inlet valve sealingly engages the wall of the bore;when the pressure of the supply fluid is above a second predetermined threshold, the inlet valve becomes unsealed from the wall of the bore before the sealing member sealingly engages the surface of the frusto-conically shaped portion of the bore;the second predetermined threshold is greater than the first predetermined threshold; andafter the pressure of the supply fluid is above the second predetermined threshold and then drops below the first predetermined threshold, the inlet valve sealingly engages the wall of the bore, and the sealing member does not sealingly engage the surface of the frusto-conically shaped portion of the bore. 9. The valve as set forth in claim 8, wherein: the inlet valve includes a shoulder having a first face with a spherical shape;when the inlet valve sealingly engages the wall of the bore, the first face of the inlet valve is sealingly engaging the wall of the bore; andthe shoulder is a plastic material. 10. The valve as set forth in claim 8, further including: a biasing member abutting a substantially flat second face of the shoulder. 11. A valve, comprising: a valve housing;a bore in the valve housing;an inlet supply port fluidly communicating a pressurized supply fluid to the bore;a piston, movably positioned in the bore based on the pressure of the supply fluid, a portion of the piston extending into a frusto-conically shaped portion of the bore, a sealing member on the portion of the piston sealingly engaging a surface of the frusto-conically shaped portion of the bore based on the position of the piston;an inlet valve movably positioned in the bore and biased to sealingly engage a wall of the bore, the inlet valve becoming unsealed from the wall based on the position of the piston;a control pressure supply port fluidly communicating a pressurized control fluid to the bore through the valve housing;a control pressure delivery port fluidly communicating with the control pressure supply port, via the bore, based on the position of the inlet valve; anda venting port fluidly communicating with the control pressure delivery port, via the bore, based on the position of the inlet valve. 12. The valve as set forth in claim 11, wherein: the surface of the frusto-conically shaped portion of the bore is angled at about 15 degrees±0.5 degrees relative to a longitudinal axis of the portion of the piston extending into the frusto-conically shaped portion. 13. The valve as set forth in claim 11, wherein: the sealing member does not sealingly engage the surface of the frusto-conically shaped portion of the bore, and the inlet valve sealingly engages the wall of the bore, when the pressure of the supply fluid is below a first predetermined pressure and the portion of the piston is at a first position in the frusto-conically shaped portion of the bore;the inlet valve becomes unsealed from the wall of the bore when the pressure of the supply fluid is above a second predetermined pressure; andthe first predetermined pressure is less than the second predetermined pressure. 14. The valve as set forth in claim 13, wherein: the sealing member sealingly engages the surface of the frusto-conically shaped portion of the bore when the pressure of the supply fluid is above the second predetermined pressure and the portion of the piston is at a second position in the frusto-conically shaped portion of the bore; andthe portion of the piston is positioned farther into the frusto-conically shaped portion at the second position relative to the first position. 15. The valve as set forth in claim 13, wherein when the pressure of the supply fluid, after having been higher than the second predetermined pressure, drops to less than the first predetermined pressure: the portion of the piston returns to the first position in the frusto-conically shaped portion of the bore so that the sealing member does not sealingly engage the surface of the frusto-conically shaped portion;the inlet valve returns to sealingly engage the wall of the bore; andthe venting port fluidly communicates with the control pressure delivery port and does not fluidly communicate with the control pressure supply port. 16. A method for controlling venting of a control pressure delivery port of a valve, the method comprising: communicating a pressurized supply fluid to a bore of the valve;movably positioning a piston in the bore based on the pressure of the supply fluid;sealingly engaging/unengaging a sealing member, associated with a portion of the piston, with a surface of a frusto-conically shaped portion of the bore based on the pressure of the supply fluid;movably positioning an inlet valve in the bore, the inlet valve being biased to sealingly engage a wall of the bore based on the pressure of the supply fluid;communicating a pressurized control fluid to a supply port;communicating the pressurized control fluid to a control pressure delivery port based on the pressure of the supply fluid; andfluidly communicating the control pressure delivery port with a venting port based on the pressure of the supply fluid. 17. The method for controlling venting of a control pressure delivery port as set forth in claim 16, wherein the step of movably positioning the inlet valve in the bore includes: movably positioning the inlet valve in the bore with the bias to sealingly engage the wall of the bore when the supply fluid is below a first predetermined pressure; andmoving the inlet valve against the bias to unseal the inlet valve from the wall when the supply fluid is above a second predetermined pressure, the second predetermined pressure being higher than the first predetermined pressure. 18. The method for controlling venting of a control pressure delivery port as set forth in claim 17, wherein the step of sealingly engaging/unengaging the sealing member includes: unsealing the sealing member from the surface of the frusto-conically shaped portion of the bore when the supply fluid is below the first predetermined pressure; andsealingly engaging the sealing member with the surface of the frusto-conically shaped portion of the bore when the supply fluid is above the second predetermined pressure. 19. The method for controlling venting of a control pressure delivery port as set forth in claim 18, wherein the step of fluidly communicating the control pressure delivery port with the venting port includes: after the supply fluid was above the second predetermined pressure and then drops below the first predetermined pressure, positioning the piston farther out of the frusto-conically shaped portion to unseal the sealing member from the frusto-conically shaped surface of the portion of the bore. 20. The method for controlling venting of a control pressure delivery port as set forth in claim 19, further including: after the supply fluid was above the second predetermined pressure and then drops below the first predetermined pressure, moving the inlet valve with the bias to re-seal the inlet valve with the wall, to ensure the control pressure supply port does not fluidly communicate with the venting port while the control pressure delivery port fluidly communicates with the venting port.
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