In one featured embodiment, a spring assembly for a valve comprises a spring, a spring seat including a cup-shaped portion for seating one end of the spring, and a ball received within a recess formed within the cup-shaped portion of the spring seat. The ball is defined by a ball diameter. A disc pr
In one featured embodiment, a spring assembly for a valve comprises a spring, a spring seat including a cup-shaped portion for seating one end of the spring, and a ball received within a recess formed within the cup-shaped portion of the spring seat. The ball is defined by a ball diameter. A disc prevents the ball from contacting a piston. The disc is defined by an outer diameter and includes a center opening defined by an inner diameter. A ratio of the inner diameter to the ball diameter is between 0.60 and 0.65.
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1. A spring assembly for a valve comprising: a spring;a spring seat including a cup-shaped portion for seating one end of the spring;a ball received within a recess formed within the cup-shaped portion of the spring seat, wherein the ball is defined by a ball diameter, and wherein the spring seat is
1. A spring assembly for a valve comprising: a spring;a spring seat including a cup-shaped portion for seating one end of the spring;a ball received within a recess formed within the cup-shaped portion of the spring seat, wherein the ball is defined by a ball diameter, and wherein the spring seat is rotatable about the ball; anda disc that prevents the ball from contacting a piston, wherein the disc is defined by an outer diameter and includes a center opening defined by an inner diameter, and wherein a ratio of the inner diameter to the ball diameter is between 0.60 and 0.65. 2. The spring assembly according to claim 1, wherein the disc is defined by a thickness extending from an upstream side of the disc to a downstream side of the disc, and wherein a ratio of the thickness of the disc to the outer diameter of the disc is between 0.06 and 0.08. 3. The spring assembly according to claim 1, wherein the recess of the cup-shaped portion is defined by a recess inner diameter and wherein a ratio of the recess inner diameter to the ball diameter is between 1.01 and 1.10. 4. The spring assembly according to claim 1, wherein the cup-shaped portion is defined by an outer diameter and by a length, and wherein a ratio of the outer diameter of the cup-shaped portion to the length of the cup-shaped portion is between 4 and 5. 5. A spring assembly for a valve comprising: a spring defined by an inner diameter;a spring seat including a cup-shaped portion for seating one end of the spring, wherein the cup-shaped portion is defined by an outer diameter;a ball received within a recess formed within the cup-shaped portion of the spring seat, and wherein the spring seat is rotatable about the ball; anda disc that prevents the ball from contacting a piston, and wherein a ratio of the outer diameter of the cup-shaped portion to the inner diameter of the spring is between 0.90 and 0.98. 6. A spring and piston assembly for a valve comprising: a piston having an outer surface defined by a maximum outer diameter, the outer surface being configured for engagement with a valve closure sleeve, and wherein the piston includes a piston bore defined by a piston inner diameter;a spring assembly positioned within the piston bore, the spring assembly including a spring,a spring seat including a cup-shaped portion for seating one end of the spring,a ball received within a recess formed within the cup-shaped portion of the spring seat, wherein the spring seat is rotatable about the ball; anda disc that prevents the ball from contacting a piston, wherein the disc is defined by an outer diameter, and wherein a ratio of the outer diameter of the disc to the piston inner diameter is between 0.97 and 0.99. 7. The spring and piston assembly according claim 6, wherein the spring seat is defined by a maximum outer diameter and wherein a ratio of the maximum outer diameter of the spring seat to the piston inner diameter is between 0.8 and 0.9. 8. A high pressure relief valve comprising: a valve housing defining an internal bore and having a valve inlet configured to be in fluid communication with a pump outlet;a closure sleeve at least partially received within the internal bore, the closure sleeve comprising a sleeve body surrounding a center axis, wherein the sleeve body has an internal cavity that is enclosed at the downstream end and open at the upstream end;a piston received within the internal cavity, wherein the internal cavity is defined in part by a piston contact surface that is defined by an inner diameter, and wherein the piston includes an outer surface defined by a maximum outer piston diameter and a piston bore that is defined by a piston inner diameter, wherein the piston contact surface slides against the outer surface of the piston;a nozzle received within the internal bore of the valve housing and including a nozzle bore having a nozzle inlet in fluid communication with the valve inlet and a nozzle outlet;a spring assembly that biases the piston to close the nozzle outlet, wherein the spring assembly includes a spring, a spring seat including a cup-shaped portion for seating one end of the spring, a ball received within a recess formed within the cup-shaped portion of the spring seat, and a disc that prevents the ball from contacting a piston, and wherein when a system pressure at the nozzle outlet exceeds a predetermined pressure level, a spring biasing load is overcome to open the nozzle outlet to fluidly connect the nozzle to the internal cavity of the closure sleeve; andwherein the high pressure relief valve includes one or more of the following valve characteristics wherein the ball is defined by a ball diameter and wherein the disc is defined by an outer diameter and includes a center opening defined by an inner diameter, and wherein a ratio of the inner diameter to the ball diameter is between 0.60 and 0.65,wherein the disc is defined by a thickness extending from an upstream side of the disc to a downstream side of the disc, and wherein a ratio of the thickness of the disc to the outer diameter of the disc is between 0.06 and 0.08,wherein the recess formed within the cup-shaped portion of the spring seat is defined by a recess inner diameter and wherein a ratio of the recess inner diameter to the ball diameter is between 1.01 and 1.10,wherein the spring is defined by an inner diameter, and wherein the cup-shaped portion is defined by an outer diameter, and wherein a ratio of the outer diameter of the cup-shaped portion to the inner diameter of the spring is between 0.90 and 0.98,wherein the cup-shaped portion is defined by an outer diameter and by a length, and wherein a ratio of the outer diameter of the cup-shaped portion to the length of the cup-shaped portion is between 4 and 5,wherein the disc is defined by an outer diameter, and wherein a ratio of the outer diameter of the disc to the piston inner diameter is between 0.97 and 0.99,wherein the spring seat is defined by a maximum outer diameter, and wherein a ratio of the maximum outer diameter of the spring seat to the piston inner diameter is between 0.8 and 0.9. 9. A fuel supply system incorporating: a fuel pump having a pump inlet and a pump outlet, the pump inlet being in fluid communication with a fuel supply;a metering valve receiving fuel from the fuel pump and directing the fuel to a gas turbine engine; anda high pressure relief valve upstream of the metering valve and downstream of the pump inlet, the high pressure relief valve being configured to move to an open position once system pressure downstream of the pump outlet exceeds a predetermined pressure level such the fuel can be returned to the pump inlet via the high pressure relief valve, and wherein the high pressure relief valve comprisesa valve housing defining an internal bore and having a valve inlet configured to be in fluid communication with a pump outlet;a closure sleeve at least partially received within the internal bore, the closure sleeve comprising a sleeve body surrounding a center axis, wherein the sleeve body has an internal cavity that is enclosed at the downstream end and open at the upstream end;a piston received within the internal cavity, wherein the internal cavity is defined in part by a piston contact surface that is defined by an inner diameter, and wherein the piston includes an outer surface defined by a maximum outer piston diameter and a piston bore that is defined by a piston inner diameter, wherein the piston contact surface slides against the outer surface of the piston;a nozzle received within the internal bore of the valve housing and including a nozzle bore having a nozzle inlet in fluid communication with the valve inlet and a nozzle outlet;a spring assembly that biases the piston to close the nozzle outlet, wherein the spring assembly includes a spring, a spring seat including a cup-shaped portion for seating one end of the spring, a ball received within a recess formed within the cup-shaped portion of the spring seat, and a disc that prevents the ball from contacting a piston, and wherein when a system pressure at the nozzle outlet exceeds a predetermined pressure level, a spring biasing load is overcome to open the nozzle outlet to fluidly connect the nozzle to the internal cavity of the closure sleeve; andwherein the high pressure relief valve includes one or more of the following valve characteristics wherein the ball is defined by a ball diameter and wherein the disc is defined by an outer diameter and includes a center opening defined by an inner diameter, and wherein a ratio of the inner diameter to the ball diameter is between 0.60 and 0.65,wherein the disc is defined by a thickness extending from an upstream side of the disc to a downstream side of the disc, and wherein a ratio of the thickness of the disc to the outer diameter of the disc is between 0.06 and 0.08,wherein the recess formed within the cup-shaped portion of the spring seat is defined by a recess inner diameter and wherein a ratio of the recess inner diameter to the ball diameter is between 1.01 and 1.100,wherein the spring is defined by an inner diameter, and wherein the cup-shaped portion is defined by an outer diameter, and wherein a ratio of the outer diameter of the cup-shaped portion to the inner diameter of the spring is between 0.90 and 0.98,wherein the cup-shaped portion is defined by an outer diameter and by a length, and wherein a ratio of the outer diameter of the cup-shaped portion to the length of the cup-shaped portion is between 4 and 5,wherein the disc is defined by an outer diameter, and wherein a ratio of the outer diameter of the disc to the piston inner diameter is between 0.97 and 0.99,wherein the spring seat is defined by a maximum outer diameter, and wherein a ratio of the maximum outer diameter of the spring seat to the piston inner diameter is between 0.8 and 0.9. 10. The spring assembly according to claim 1, wherein the ball axially spaces the spring seat apart from the disc by a gap to allow rotation of the spring seat relative to the disc. 11. The spring assembly according to claim 10, wherein the ball allows the spring seat to rotate around the ball by approximately eight degrees. 12. The spring assembly according to claim 10, wherein the spring seat includes an enlarged flange portion with an outer edge that defines a maximum outer diameter of the spring seat, and wherein the outer edge contacts the disc to define a pivot stop. 13. The spring assembly according to claim 5, wherein the ball axially spaces the spring seat apart from the disc by a gap to allow rotation of the spring seat relative to the disc. 14. The spring assembly according to claim 13, wherein the ball allows the spring seat to rotate around the ball by approximately eight degrees. 15. The spring assembly according to claim 13, wherein the spring seat includes an enlarged flange portion with an outer edge that defines a maximum outer diameter of the spring seat, and wherein the outer edge contacts the disc to define a pivot stop. 16. The spring and piston assembly according to claim 6, wherein the ball axially spaces the spring seat apart from the disc by a gap to allow rotation of the spring seat relative to the disc. 17. The spring and piston assembly according to claim 16, wherein the ball allows said spring seat to rotate around the ball by approximately eight degrees. 18. The spring and piston assembly according to claim 16, wherein the spring seat includes an enlarged flange portion with an outer edge that defines a maximum outer diameter of the spring seat, and wherein the outer edge contacts the disc to define a pivot stop. 19. The spring and piston assembly according to claim 18, wherein the outer edge slides along an inner surface of the piston bore.
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이 특허에 인용된 특허 (14)
Jones Evan (Evanston IL), Adjustable relief valve.
Arline Samuel B. (Lake Park FL) Eder Matthias (Stuart FL) Dunlap Jeffrey J. (Stuart FL) Douglas Gary W. (Palm Beach Gardens FL), Fuel metering and actuation system.
Zemek Thomas G. (Mansfield CT) Caruolo Antonio B. (Vernon CT) Roberts Stephanie A. (Columbia SC) Dunn James K. (Columbia SC) Spearen John (Irmo SC), Method and apparatus for determining spring preloading in a fluid handling device.
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