Connector system for fuel hose and filler pipe

The invention claimed is: 1. A fuel tank fill assembly adapted to be coupled to a fuel tank to conduct fuel from a fuel nozzle to the fuel tank during refueling, the fuel tank fill assembly comprising: a rigid filler pipe that provides a portion of a conduit adapted to conduct fuel from a fuel nozzle, the rigid filler pipe to include an outer layer and a vapor-impermeable inner layer, a flexible fuel hose comprising vapor-impermeable material that extends over a portion of the rigid filler pipe and is configured to be located between the rigid filler pipe and a fuel conductor which houses a fuel tank inlet check valve, the flexible fuel hose provides another portion of the conduit adapted to conduct fuel, and connector means for facilitating insertion of the rigid filler pipe into the flexible fuel hose and for maintaining a liquid-tight and vapor-tight seal between the filler pipe and the fuel hose by sealing against the inner layer of the filler pipe without welding or otherwise creating a permeable joint between the rigid filler pipe and the flexible fuel hose so that hydrocarbons are contained in the fuel tank fill assembly and are not allowed to escape into the environment when fuel is conducted through the conduit, wherein the connector means includes a hose insert that extends into an insert-receiving portion of the rigid filler pipe over which the flexible fuel hose extends and a hose clamp that extends around the flexible fuel hose along the insert-receiving portion of the rigid filler pipe, wherein the hose insert includes a cylindrical sleeve body located within the insert-receiving portion of the rigid filler pipe and a chamfered head that extends from the cylindrical sleeve body out of the rigid filler pipe and the chamfered head is sized to spread an inner diameter of the flexible fuel hose when the insert-receiving portion of the rigid filler pipe is pushed into the flexible fuel hose, and wherein the hose insert further includes a chamfered tail that extends from the cylindrical sleeve body opposite the chamfered head and the chamfered tail is sized to spread an inner diameter of the rigid filler pipe when the hose insert is pushed into the insert-receiving portion of the rigid filler pipe. 2. The fuel tank fill assembly of claim 1 , wherein the chamfered head has a distal end having an inner diameter about equal to an inner diameter of the cylindrical sleeve body and an outer diameter greater than an outer diameter of the cylindrical sleeve body. 3. The fuel tank fill assembly of claim 1 , wherein the hose insert includes the cylindrical sleeve body located within the insert-receiving portion of the rigid filler pipe and a plurality of sealing barbs that extend outwardly from the cylindrical sleeve body to engage an inner surface of the rigid filler pipe so that the hose insert is retained in the insert-receiving portion of the rigid filler pipe. 4. The fuel tank fill assembly of claim 3 , wherein the hose clamp extends around at least a portion of one of the sealing barbs so that the hose clamp is configured to squeeze the rigid filler pipe into engagement with at least one of the sealing barbs when tightened. 5. The fuel tank fill assembly of claim 3 , wherein the connector means includes an O-ring seal arranged around the hose insert to seal between the hose insert and the rigid filler pipe and the hose clamp extends around at least a portion of the O-ring seal so that the hose clamp is configured to squeeze the rigid filler pipe into engagement with the O-ring seal when tightened. 6. The fuel tank fill assembly of claim 5 , wherein the inner layer of the rigid filler pipe is a polyarylamide layer adapted to block permeation of hydrocarbons from fuel and fuel vapor, and the O-ring seal comprises a fluorinated elastomer adapted to seal against the polyarylamide layer of the rigid filler pipe. 7. The fuel tank fill assembly of claim 1 , wherein the hose insert includes the cylindrical sleeve body located within the insert-receiving portion of the rigid filler pipe, the cylindrical sleeve body is formed to include a seal groove that receives a portion of an O-ring seal to locate the O-ring seal along the cylindrical sleeve body, and the O-ring seal engages both the cylindrical sleeve body and the rigid filler pipe to seal between the cylindrical sleeve body and the filler pipe. 8. The fuel tank fill assembly of claim 7 , wherein the inner layer is a polyarylamide layer adapted to block permeation of hydrocarbons from fuel and fuel vapor and the O-ring seal comprises a fluorinated elastomer adapted to seal against the polyarylamide layer of the rigid filler pipe. 9. A fuel tank fill assembly adapted to be coupled to a fuel tank to conduct fuel from a fuel nozzle to the fuel tank during refueling, the assembly comprising: a rigid filler pipe that provides a portion of a conduit adapted to conduct fuel, the rigid filler pipe formed to include an outer layer and a vapor-impermeable inner layer that is thinner than the outer layer, a flexible fuel hose that extends over a portion of the filler pipe and extends from the rigid filler pipe to a fuel tank inlet check valve, the flexible fuel hose providing another portion of the conduit adapted to conduct fuel, and a connector system including a hose insert that extends from inside of an insert-receiving portion of the rigid filler pipe into the flexible fuel hose and a hose clamp that extends around the flexible fuel hose along the insert-receiving portion of the rigid filler pipe, the hose insert formed to include passageways that couple for fluid communication between the portion of the conduit provided by the rigid filler pipe with the portion of the conduit provided by the flexible fuel hose, and the hose clamp configured to squeeze the flexible fuel hose onto the rigid filler pipe when tightened to seal the interface of the rigid filler pipe with the flexible fuel hose, wherein the connector system includes an O-ring seal arranged around the hose insert to seal between the hose insert and the rigid filler pipe and the hose insert is formed to include a seal groove that receives a portion of the O-ring seal to locate the O-ring seal along the hose insert. 10. The assembly of claim 9 , wherein the inner layer of the rigid filler pipe is a polyarylamide layer adapted to block permeation of hydrocarbons from fuel and fuel vapor, and the O-ring seal comprises a fluorinated elastomer adapted to seal against the polyarylamide layer of the rigid filler pipe. 11. The assembly of claim 10 , wherein the hose insert comprises polyoxymethylene adapted to slide relative to the polyarylamide layer of the rigid filler pipe so that the polyarylamide layer of the rigid filler pipe is not damaged during insertion of the hose insert into the rigid filler pipe. 12. The assembly of claim 9 , wherein the hose insert includes a cylindrical sleeve body located within the insert-receiving portion of the rigid filler pipe and a plurality of sealing barbs that extend outwardly from the cylindrical sleeve body to engage an inner surface of the rigid filler pipe so that the hose insert is retained in the insert-receiving portion of the rigid filler pipe. 13. The assembly of claim 12 , wherein the hose clamp extends around at least a portion of one of the sealing barbs so that the hose clamp is configured to squeeze the rigid filler pipe into engagement with at least one of the sealing barbs when tightened. 14. The assembly of claim 12 , wherein the hose insert includes a chamfered head that extends from the cylindrical sleeve body out of the rigid filler pipe and a chamfered tail that extends from the cylindrica