Fluidic coupler assembly with conical ferrule

The invention claimed is: 1. A fluidic coupler assembly for use in a light-guided flow cell comprising: a coupler body having a first sealing face and a through bore, the through bore having a first region, a second region and a frusto-conical portion, the first region having a first diameter, the second region having a second diameter, wherein the second region is disposed between the first region and the frusto-conical portion and the second diameter is less than the first diameter; at least one tubular insert passing through the through bore of the coupler body and through a first ferrule located adjacent the first sealing face of the coupler body; and a backing plug abutting the ferrule within the through bore of the coupler body, the backing plug having an outside diameter sufficient to form an interference fit within the second region of the through bore of the coupler body such that the backing plug holds the first ferrule in position within the coupler body; wherein the at least one tubular insert extends though the backing plug; wherein the at least one tubular insert and the first ferrule are flush with the first sealing face. 2. The fluidic coupler assembly of claim 1 , wherein the first ferrule is formed from a chemically inert polymer such as polyether ether ketone or fluoropolymers including amorphous fluoroplastics. 3. The fluidic coupler assembly of claim 1 , wherein the at least one tubular insert includes a plurality of coaxial tubular inserts passing through the through bore of the coupler body and through the first ferrule. 4. The fluidic coupler assembly of claim 1 , wherein the at least one tubular insert is a capillary. 5. The fluidic coupler assembly of claim 1 , wherein the at least one tubular insert is an optical fibre. 6. The fluidic coupler assembly of claim 1 , wherein the coupler body is formed from a material which is harder and/or less compliant than that of the first ferrule. 7. The fluidic coupler assembly of claim 6 , wherein the backing plug is formed from material sufficiently different in alloy composition from the coupler body to reduce galling during assembly with the coupler body. 8. The fluidic coupler assembly of claim 1 , wherein the first ferrule has a frusto-conical nose which abuts the frusto-conical portion of said through bore. 9. The fluidic coupler assembly of claim 8 , wherein a cone angle of the frusto-conical portion of the coupler body is substantially larger than a cone angle of the first ferrule nose. 10. The fluidic coupler assembly of claim 9 , wherein the cone angle of the frusto-conical portion of the coupler body is substantially 40° and the cone angle of the first ferrule nose is substantially 29°. 11. A fluidic coupler assembly for use in a light-guided flow cell, comprising: a coupler body having a first sealing face and a through bore, the through bore having a first region and a frusto-conical portion, the first region having a first diameter, wherein the frusto-conical portion is disposed between the first region and the first sealing face; at least one tubular insert passing through the through bore of the coupler body and through a first ferrule located adjacent the first sealing face of the coupler body; and a backing plug abutting the first ferrule within the through bore of the coupler body, the backing plug having an outside diameter sufficient to form an interference fit within the first region of the through bore of the coupler body such that the backing plug holds the first ferrule in position within the coupler body; wherein the coupler body has a second sealing face at an opposite axial end to the first sealing face, wherein the at least one tubular insert passes through the through bore of the coupler body and through the first ferrule and a second ferrule, each ferrule located adjacent each of the opposed sealing faces of the coupler body, wherein the backing plug provides a sealing face for each of the ferrules; wherein a first end of the at least one tubular insert and the first ferrule are flush with the first sealing face, and a second end of the at least one tubular insert and the second ferrule are flush with the second sealing face. 12. The fluidic coupler assembly of claim 11 , wherein at least one of the first ferrule and the second ferrule is formed from a chemically inert polymer such as polyether ether ketone or fluoropolymers including amorphous fluoroplastics. 13. The fluidic coupler assembly of claim 11 , wherein the at least one tubular insert includes a plurality of coaxial tubular inserts passing through the through bore of the coupler body, the first ferrule, and the second ferrule. 14. The fluidic coupler assembly of claim 11 , wherein the at least one tubular insert is a capillary. 15. The fluidic coupler assembly of claim 11 , wherein the at least one tubular insert is an optical fibre. 16. The fluidic coupler assembly of claim 11 , wherein the coupler body is formed from a material which is harder and/or less compliant than that of at least one of the first ferrule and the second ferrule. 17. The fluidic coupler assembly of claim 16 , wherein the backing plug is formed from material sufficiently different in alloy composition from the coupler body to reduce galling during assembly with the coupler body. 18. The fluidic coupler assembly of claim 11 , wherein the first ferrule has a frusto-conical nose which abuts the frusto-conical portion of said through bore. 19. The fluidic coupler assembly of claim 18 , wherein a cone angle of the frusto-conical portion of the coupler body is substantially larger than a cone angle of the first ferrule nose. 20. The fluidic coupler assembly of claim 19 , wherein the cone angle of the frusto-conical portion of the coupler body is substantially 40° and the cone angle of the first ferrule nose is substantially 29°.