Single action push to connect conduit fitting with colleting

We claim: 1. A push to connect fitting assembly for a conduit having a longitudinal axis, the fitting assembly comprising: a first fitting component having an outboard end that is adapted to receive a conduit end; a second fitting component joined to the first fitting component to define an interior cavity; a seal device disposed in the interior cavity, wherein the seal device forms a non-polymeric seal between one of the first and second fitting components and an outer surface of a conduit end when the conduit end is inserted into the outboard end of the first fitting component; a retainer assembled with at least one of the first and second fitting components, the retainer including a gripping portion that grips the inserted conduit end; and a biasing member axially disposed between the retainer and the seal device, the biasing member applying a first axial load to the retainer to produce a gripping force between the gripping portion and the inserted conduit end. 2. The fitting assembly of claim 1 , wherein the seal device forms an all metal seal between the one of the first and second fitting components and the outer surface of the inserted conduit end. 3. The fitting assembly of claim 1 , wherein the seal device includes an annular lip seal having an inboard facing C-shaped cross section. 4. The fitting assembly of claim 3 , wherein the seal device further includes a supporting gland having a first end adjacent an inner shoulder portion of the first fitting component, and a second end received in the C-shaped cross-section of the annular lip seal. 5. The fitting assembly of claim 1 , wherein the retainer further comprises an annular retainer body and a colleting portion outboard of the gripping portion, wherein the gripping portion engages the inserted conduit end over a first surface contact area to grip the conduit end, and the colleting portion engages the inserted conduit end over a second surface contact area greater than the first surface contact area to collet the inserted conduit end. 6. The fitting assembly of claim 5 , wherein at least one of the gripping portion and the colleting portion comprises at least one bearing member captured between the retainer body and the second fitting component. 7. The fitting assembly of claim 5 , wherein at least one of the gripping portion and the colleting portion comprises at least one axially extending, radially flexible member. 8. The fitting assembly of claim 7 , wherein the at least one flexible member is integral with the retainer body. 9. The fitting assembly of claim 5 , wherein the gripping portion comprises a plurality of bearing members captured between the retainer body and a tapered surface of the fitting assembly, and the colleting portion comprises a plurality of axially extending, radially flexible members integral with the retainer body. 10. The fitting assembly of claim 5 , wherein the retainer body comprises a plurality of arcuate segments assembled to form an annular cross-section. 11. The fitting assembly of claim 10 , wherein the gripping portion comprises a plurality of bearing members and the colleting portion comprises a plurality of axially extending, radially flexible members, wherein each of the plurality of arcuate segments defines at least one cavity receiving one of the plurality of bearing members, and each of the plurality of arcuate segments forms at least one of the plurality of flexible members. 12. The fitting assembly of claim 5 , wherein the gripping portion comprises a plurality of bearing members retained in a corresponding plurality of cavities in the retainer body. 13. The fitting assembly of claim 5 , wherein the retainer further includes a second colleting portion inboard of the gripping portion. 14. The fitting assembly of claim 5 , wherein the second fitting component comprises a tapered interior surface that engages at least one of the gripping portion and the colleting portion to move the at least one of the gripping portion and the colleting portion radially inward toward engagement with the outer surface of the inserted conduit end. 15. The fitting assembly of claim 5 , wherein the colleting portion defines a curved inner surface conforming to a cylindrical outer surface of the inserted conduit end. 16. The fitting assembly of claim 5 , wherein the colleting portion is separated from the outer surface of the inserted conduit end by a radial gap when no external outward axial load is applied to the inserted conduit end. 17. The fitting assembly of claim 5 , wherein the gripping portion is biased against a first portion of a tapered interior surface of the fitting assembly to grip the inserted conduit end, and the colleting portion is biased against a second portion of the tapered interior surface of the fitting assembly to collet the inserted conduit end. 18. The fitting assembly of claim 1 , wherein the first fitting component comprises a female threaded body and the second fitting component comprises a male threaded nut. 19. The fitting assembly of claim 1 , wherein the gripping portion grips the inserted conduit end upon insertion of the conduit end into the outboard end of the first fitting component. 20. The fitting assembly of claim 1 , wherein the biasing member applies a second axial load to the seal device to produce a radial seal load between the seal device and the one of the first and second fitting components and the inserted conduit end.