Dual fuel common rail engine with co-axial quill assembly

We claim: 1. A dual fuel engine, comprising: an engine housing that defines a plurality of cylinders; and a dual fuel common rail system that includes exactly one fuel injector positioned for direct injection in each cylinder of the plurality of cylinders, a gaseous fuel common rail and a liquid fuel common rail that are fluidly connected to each fuel injector, and a coaxial quill assembly with an inner tube and an outer tube in sealing contact with a common conical seat of each fuel injector, the inner tube being out of contact with the outer tube for each coaxial quill assembly, each coaxial quill assembly includes a block defining a liquid fuel passage that opens into a quill chamber through a conical seat, and defining a gaseous fuel passage that opens into the quill chamber outside of the conical seat, wherein the inner tube defines a liquid fuel conduit extending between a first end and a second end of the inner tube, the first end of the inner tube including an annular spherical surface loaded in contact with, but unattached to, the conical seat of the block, the outer tube has an inner surface extending between a first end and a second end of the outer tube, the first end of the outer tube being received in the quill chamber, a gaseous fuel conduit extending between an outer surface of the inner tube and the inner surface of the outer tube, an annular seal for preventing gas from escaping from the gaseous fuel conduit is disposed between the block and the outer tube, a majority of the volume of the pressure damping chamber is located in an upstream half of the gaseous fuel conduit, a gage line at the second end of the inner tube extends a predetermined target distance beyond a gage line at the second end of the outer tube so that the inner tube and the outer tube seat on the common conical seat responsive to a predetermined load on the block along an axis of the inner tube, a load adjusting clamp with a pivot surface in contact with the block at a load adjustment location intersected by the axis of the inner tube, the load adjusting clamp defines a fastener bore and a fastener slot, and the load adjusting clamp pivots on a load adjustment location responsive to adjustments to a first fastener and a second fastener received in the fastener bore and the fastener slot, respectively, and each coaxial quill assembly defining a pressure damping chamber to damp pressure waves moving from the gaseous fuel common rail toward the respective fuel injector, the pressure damping chamber having a volume that is greater than a gaseous fuel volume within the respective fuel injector. 2. The dual fuel engine of claim 1 , wherein an outer surface and the inner surface of the outer tube include two stepwise diameter reductions along an axis of the outer tube in a direction extending from the first end toward the second end of the outer tube. 3. The dual fuel engine of claim 1 , wherein the annular seal includes an O-ring trapped between the outer tube and the block. 4. The dual fuel engine of claim 3 wherein each coaxial quill assembly includes a gaseous fuel edge filter and a liquid fuel edge filter. 5. The dual fuel engine of claim 1 wherein a plurality of the blocks are daisy chained together with gaseous and liquid fuel lines to define the gaseous fuel common rail and the liquid fuel common rail, respectively, each block of the plurality of blocks defines a gaseous rail passage that is oriented perpendicular to the axis of the inner tube and defines a portion of the gaseous fuel common rail, and each block of the plurality of blocks defines a liquid rail passage that is oriented perpendicular to the axis of the inner tube, and defines a portion of the liquid fuel common rail. 6. The dual fuel engine of claim 2 , wherein the annular seal includes an O-ring trapped between the outer tube and the block. 7. The dual fuel engine of claim 4 , wherein a plurality of the blocks are daisy chained together with gaseous and liquid fuel lines to define the gaseous fuel common rail and the liquid fuel common rail, respectively, each block of the plurality of blocks defines a gaseous rail passage that is oriented perpendicular to the axis of the inner tube and defines a portion of the gaseous fuel common rail, and each block of the plurality of blocks defines a liquid rail passage that is oriented perpendicular to the axis of the inner tube, and defines a portion of the liquid fuel common rail. 8. A dual fuel engine, comprising: an engine housing that defines a plurality of cylinders; and a dual fuel common rail system that includes exactly one fuel injector positioned for direct injection in each cylinder of the plurality of cylinders, a gaseous fuel common rail and a liquid fuel common rail that are fluidly connected to each fuel injector, and a coaxial quill assembly with an inner tube and an outer tube in sealing contact with a common conical seat of each fuel injector, the inner tube being out of contact with the outer tube for each coaxial quill assembly, each coaxial quill assembly includes a block defining a liquid fuel passage that opens into a quill chamber through a conical seat, and defining a gaseous fuel passage that opens into the quill chamber outside of the conical seat, wherein the inner tube defines a liquid fuel conduit extending between a first end and a second end of the inner tube, the first end of the inner tube including an annular spherical surface loaded in contact with, but unattached to, the conical seat of the block, the outer tube has an inner surface extending between a first end and a second end of the outer tube, the first end of the outer tube being received in the quill chamber, a gaseous fuel conduit extending between an outer surface of the inner tube and the inner surface of the outer tube, an annular seal including an O-ring trapped between the outer tube and the block for preventing gas from escaping from the gaseous fuel conduit is disposed between the block and the outer tube, a majority of the volume of the pressure damping chamber is located in an upstream half of the gaseous fuel conduit, a gage line at the second end of the inner tube extends a predetermined target distance beyond a gage line at the second end of the outer tube so that the inner tube and the outer tube seat on the common conical seat responsive to a predetermined load on the block along an axis of the inner tube, each coaxial quill assembly defining a pressure damping chamber to damp pressure waves moving from the gaseous fuel common rail toward the respective fuel injector, the pressure damping chamber having a volume that is greater than a gaseous fuel volume within the respective fuel injector. 9. The dual fuel engine of claim 8 , wherein each coaxial quill assembly includes a load adjusting clamp with a pivot surface in contact with the block at a load adjustment location intersected by the axis of the inner tube, the load adjusting clamp defines a fastener bore and a fastener slot, and the load adjusting clamp pivots on a load adjustment location responsive to adjustments to a first fastener and a second fastener received in the fastener bore and the fastener slot, respectively, wherein an outer surface and the inner surface of the outer tube include two stepwise diameter reductions along an axis of the outer tube in a direction extending from the first end toward the second end of the outer tube. 10. The dual fuel engine of claim 8 wherein each coaxial quill assembly includes a gaseous fuel edge filter and a liquid fuel edge filter. 11. The dual fuel engine of claim 8 wherein a plurality of the blocks are daisy chained together with gaseous and liquid fuel l