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A gas spring and gas clamper assembly includes a first end member, a second end member, a first flexible wall that at least partially defines a first spring chamber, and a second flexible wall that at least partially defines a second spring chamber. A damper piston and damper rod are operatively con

A gas spring and gas clamper assembly includes a first end member, a second end member, a first flexible wall that at least partially defines a first spring chamber, and a second flexible wall that at least partially defines a second spring chamber. A damper piston and damper rod are operatively connected between the first and second end members and within the first spring chamber. A suspension system that includes a gas spring and gas damper assembly as well as a method of assembly are also included.

대표청구항 ▼

1. A gas spring and gas damper assembly comprising: a first end member;a second end member disposed in longitudinally-spaced relation to said first end member, said second end member including an inner side wall and an outer side wall, said inner side wall at least partially defining an inner cavity

1. A gas spring and gas damper assembly comprising: a first end member;a second end member disposed in longitudinally-spaced relation to said first end member, said second end member including an inner side wall and an outer side wall, said inner side wall at least partially defining an inner cavity;a gas damper piston at least partially received within said inner cavity, said gas damper piston slidably engaging said inner side wall and adapted for longitudinal displacement therealong;a gas damper connector rod operatively connecting said first end member and said gas damper piston such that relative longitudinal displacement between said first end member and said second end member results in displacement of said gas damper piston along said inner side wall within said inner cavity;a first flexible sleeve operatively connected between said first end member and said second end member at least partially defining a first spring chamber therebetween, said first spring chamber including said inner cavity and at least partially containing said gas damper piston and said gas damper connector rod;a second flexible sleeve disposed radially-outwardly along said first flexible sleeve and operatively connected between said first end member and said second end member such that a second spring chamber is formed radially-outwardly of said first spring chamber along said first flexible sleeve; and,a passage in fluid communication between said first spring chamber and said second spring chamber and a valve operatively connected in fluid communication along said passage. 2. A gas spring and gas damper assembly according to claim 1, wherein said valve is a proportional pressure valve operative to selectively permit pressurized gas flow from said first spring chamber to said second spring chamber. 3. A gas spring and gas damper according to claim 1, wherein said gas damper piston is adapted to form a substantially fluid-tight seal with said inner side wall of said second end member, and said gas damper piston includes at least one passage extending therethrough that is operative to permit gas flow through said gas damper piston during displacement of said gas damper piston along said inner side wall. 4. A gas spring and gas damper assembly according to claim 3, wherein said gas damper piston includes a valve disposed in operatively communication along said passage. 5. A gas spring and damper assembly according to claim 4, wherein said valve is a first valve disposed along said gas damper piston for operation under movement of said gas damper piston in a first longitudinal direction, and said gas damper piston includes a second valve for operation under movement of said gas damper in an opposing, second longitudinal direction. 6. A gas spring and gas damper assembly according to claim 1, wherein said first spring chamber includes a quantity of gas having a first nominal pressure and said second spring chamber is includes a quantity of gas having a second nominal pressure within a range of from approximately 25 percent of said first nominal pressure to approximately 75 percent of said first nominal pressure. 7. A gas spring and damper assembly according to claim 6, wherein said first nominal pressure is within a range of from approximately 200 psi to approximately 350 psi. 8. A gas spring and gas damper assembly according to claim 6, wherein said second nominal pressure is within a range of from approximately 60 psi to approximately 175 psi. 9. A gas spring and gas damper assembly according to claim 6, wherein said second nominal pressure is within a range of from approximately 40 percent of said first nominal pressure to approximately 60 percent of said first nominal pressure. 10. A gas spring and gas damper assembly according to claim 1, wherein said inner side wall is substantially cylindrical, and said outer side wall is at least one of substantially cylindrical, frustoconical or curvilinear. 11. A suspension system comprising: a gas spring and gas damper assembly according to claim 1; and,a pressurized gas system including a pressurized gas source in fluid communication with at least one of said first and second spring chambers of said gas spring and gas damper assembly. 12. A suspension system according to claim 11, wherein said gas spring and gas damper assembly is one of a plurality of gas spring and gas damper assemblies in fluid communication with said pressurized gas source. 13. A method of operating a gas spring and gas damper assembly, said method comprising: a) providing a first end member and a second end member with said first end member including a side wall at least partially defining an end member cavity;b) forming a gas damper from a damper piston received within said end member cavity by operatively connecting said damper piston to said second end member such that relative displacement of said first end member and said second end member results in displacement of said damper piston within said end member cavity along said first side wall;c) forming a first spring chamber about said gas damper from a first flexible wall secured along said first end member and said second end member and pressurizing said first spring chamber to a first nominal pressure;d) forming a second spring chamber that encapsulates said first flexible wall from a second flexible wall secured along said first end member and said second end member and pressurizing said second spring chamber to a second nominal pressure that is at least 25 percent less than said first nominal pressure;e) forming a passage in fluid communication between said first spring chamber and said second spring chamber; and,f) operatively connecting a valve in fluid communication along said passage. 14. A method according to claim 13, wherein pressurizing said first spring chamber in c) includes pressurizing said first spring chamber to a pressure within a range of approximately 200 psi to approximately 350 psi, and pressurizing said second chamber in d) includes pressuring said second spring chamber to a pressure within a range of approximately 60 psi to approximately 175 psi. 15. A method according to claim 13, wherein said second nominal pressure of said second spring chamber is within a range of from approximately 25 percent less than said first nominal pressure to approximately 75 percent less than said first nominal pressure. 16. A method according to claim 13, wherein said second nominal pressure is within a range of from approximately 40 percent less than said first nominal pressure to approximately 60 percent less than said first nominal pressure. 17. A method according to claim 13, wherein said valve is a proportional pressure valve operative to selectively permit pressurized gas flow from said first spring chamber to said second spring chamber. 18. A method according to claim 13, wherein said second flexible wall is disposed radially-outwardly along said first flexible wall such that said second spring chamber is formed radially-outwardly of said first spring chamber along said first flexible wall.