Methods and apparatus for vehicle suspension having multiple gas volumes

The invention claimed is: 1. A vehicle suspension system gas spring, comprising: a compressible main gas chamber; a secondary gas chamber, the secondary gas chamber separate from the compressible main gas chamber, the secondary gas chamber having a gas pressure therein selectively combinable with the compressible main gas chamber to change a gas spring rate of the system; an annular fluid path for communication of a gas between said compressible main gas chamber and said secondary gas chamber; and a bladder in the secondary gas chamber, said bladder forming a tertiary gas chamber separated from the compressible main gas chamber and the secondary gas chamber, the tertiary gas chamber being initially pressurized to a pressure value higher than a pressure of the compressible main gas chamber in an extended state. 2. The vehicle suspension system gas spring of claim 1 , wherein the gas spring is disposed in a front fork of a bicycle. 3. The vehicle suspension system gas spring of claim 2 , wherein the front fork also includes a fluid damper. 4. The vehicle suspension system gas spring of claim 1 , wherein the bladder has walls formed of a flexible material. 5. The vehicle suspension system gas spring of claim 1 , wherein the bladder further comprises: an outer wall housed in and retained by a tube wall; and an inside wall retained from over-collapse by an outer surface of a shaft extending through an upper portion of a fork leg, the shaft used to fill the compressible main gas chamber. 6. The vehicle suspension system gas spring of claim 5 , wherein the bladder is retained and effectively sealed between: a lower bladder ring, said lower bladder ring supported on the shaft by a first retention ring; and an upper bladder ring, said upper bladder ring supported on the shaft by a second retention ring, at least one of said lower bladder ring or said upper bladder ring prevents the bladder from extruding into the compressible main gas chamber. 7. The vehicle suspension system gas spring of claim 1 , wherein an upper edge of the bladder is retained in an annular space formed in an outer diameter of a fork cap. 8. The vehicle suspension system gas spring of claim 7 , wherein an upper edge of the bladder is open to another annular area formed in an interior of the fork cap. 9. The vehicle suspension system gas spring of claim 1 , further comprising: a fork spring, wherein when a fork spring is extended during a rebound stroke the bladder will expand until it fills a chamber in which it is housed. 10. The vehicle suspension system gas spring of claim 1 , wherein a gas in the compressible main gas chamber is not the same as a gas in the tertiary gas chamber. 11. The vehicle suspension system gas spring of claim 1 , wherein a gas in the compressible main gas chamber does not have a same characteristics as a gas in the tertiary gas chamber. 12. A vehicle suspension system gas spring, comprising: a compressible main gas chamber; a secondary gas chamber, the secondary gas chamber separate from the compressible main gas chamber, the secondary gas chamber having a gas pressure therein selectively combinable with the compressible main gas chamber to change a gas spring rate of the system; an annular fluid path for communication of a gas between said compressible main gas chamber and said secondary gas chamber; and a bladder formed of a flexible material within the secondary gas chamber, said bladder forming a tertiary gas chamber separated from the compressible main gas chamber and the secondary gas chamber, the tertiary gas chamber being initially pressurized to a pressure value higher than a pressure of the compressible main gas chamber in an extended state, said bladder comprising: an outer wall housed in and retained by a tube wall; and an inside wall retained from over-collapse by an outer surface of a shaft extending through an upper portion of a fork leg, the shaft used to fill the compressible main gas chamber. 13. The vehicle suspension system gas spring of claim 12 , wherein the gas spring is disposed in a front fork of a bicycle. 14. The vehicle suspension system gas spring of claim 13 , wherein the front fork also includes a fluid damper. 15. The vehicle suspension system gas spring of claim 12 , wherein the bladder is retained and effectively sealed between: a lower bladder ring, said lower bladder ring supported on the shaft by a first retention ring; and an upper bladder ring, said upper bladder ring supported on the shaft by a second retention ring, at least one of said lower bladder ring or said upper bladder ring prevents the bladder from extruding into the compressible main gas chamber. 16. A vehicle suspension system gas spring, comprising: a compressible main gas chamber; a secondary gas chamber, the secondary gas chamber separate from the compressible main gas chamber, the secondary gas chamber having a gas pressure therein selectively combinable with the compressible main gas chamber to change a gas spring rate of the system; an annular fluid path for communication of a gas between said compressible main gas chamber and said secondary gas chamber; and a bladder formed of a flexible material within the secondary gas chamber, said bladder forming a tertiary gas chamber separated from the compressible main gas chamber and the secondary gas chamber, an interior of the tertiary gas chamber contained in the bladder being initially pressurized to a pressure value higher than a pressure of the compressible main gas chamber in a fully extended state, said bladder comprising: an outer wall housed in and retained by a tube wall; and an inside wall retained from over-collapse by an outer surface of a shaft extending through an upper portion of a fork leg, the shaft used to fill the compressible main gas chamber, wherein an upper edge of the bladder is retained in an annular space formed in an outer diameter of a fork cap and is open to another annular area formed in an interior of the fork cap. 17. The vehicle suspension system gas spring of claim 16 , further comprising: a fork spring, wherein when a fork spring is extended during a rebound stroke the bladder will expand until it fills a chamber in which it is housed. 18. The vehicle suspension system gas spring of claim 16 , wherein a gas in the compressible main gas chamber is not the same as a gas in the tertiary gas chamber. 19. The vehicle suspension system gas spring of claim 16 , wherein a gas in the compressible main gas chamber does not have a same characteristics as a gas in the tertiary gas chamber.