Fitting nut with adapted engaging surfaces

The invention claimed is: 1. A fitting assembly having a longitudinal axis, comprising: a fitting body that receives a conduit, a threaded drive nut comprising a drive surface and a first tapered longitudinal surface and a second tapered longitudinal surface; said first tapered longitudinal surface and said second tapered longitudinal surface being radially and axially outward of said radial drive surface, a first conduit gripping member and a second conduit gripping member, said first conduit gripping member will engage a camming surface of said fitting body during fitting pull-up, and said second conduit gripping member will engage said drive surface during fitting pull-up; said first conduit gripping member being radially spaced from said first tapered longitudinal surface when the fitting assembly is in a finger tight condition, wherein said first conduit gripping member is radially displaced into contact with said first tapered longitudinal surface during fitting pull-up of the fitting assembly onto the conduit, said first tapered longitudinal surface and said second tapered longitudinal surface assist in separating said drive nut from said first conduit gripping member and said second conduit gripping member during fitting disassembly, wherein said first tapered longitudinal surface and said second tapered longitudinal surface are discontinuous with respect to each other. 2. The fitting assembly of claim 1 wherein said first tapered longitudinal surface and said second tapered longitudinal surface are each tapered at an angle that is greater than 0° up to approximately 45° relative to the longitudinal axis. 3. The fitting assembly of claim 2 wherein said first and second tapered longitudinal surfaces are tapered at an angle that is between about 5° and about 30° relative to the longitudinal axis. 4. The fitting assembly of claim 2 wherein said first tapered longitudinal surface and said second tapered longitudinal surface are each tapered at an angle that is between about 10° and about 20° relative to the longitudinal axis. 5. The fitting assembly of claim 1 wherein said second conduit gripping member is radially displaced into contact with said second tapered longitudinal surface during fitting pull-up to produce an axial component of an elastic reaction force against said second conduit gripping member. 6. The fitting assembly of claim 1 wherein said first conduit gripping member is spaced from said first tapered longitudinal surface by a gap g 1 and said second conduit gripping member is spaced from said second tapered longitudinal surface by a gap g 2 when the fitting assembly is in a finger tight position. 7. A fitting having a longitudinal axis comprising: a drive nut that receives a front ferrule and a rear ferrule and mates with a fitting body: said drive nut comprising an inner wall that provides a recess adapted to receive said front ferrule and said rear ferrule, said inner wall comprising a drive surface that will drive said rear ferrule against said front ferrule during pull-up of the fitting; said inner wall comprising a first tapered longitudinal surface that extends at an angle that is greater than 0° up to approximately 45° with respect to the longitudinal axis and a second tapered longitudinal surface that extends at an angle that is greater than 0° up to approximately 45° with respect to the longitudinal axis, said first tapered longitudinal surface extending between said drive surface and said second longitudinal surface, said first tapered longitudinal surface and said second tapered longitudinal surface each being radially and axially outward of said drive surface, said first tapered longitudinal surface and said second tapered longitudinal surface being discontinuous with respect to each other, said first tapered longitudinal surface being axially aligned with said rear ferrule and said second tapered longitudinal surface being axially aligned with said front ferrule when the fitting is in an assembled condition, wherein when the fitting is pulled up onto a conduit, said rear ferrule is radially displaced into contact with said first tapered longitudinal surface, and said front ferrule is radially displaced into contact with said second tapered longitudinal surface, and said first tapered longitudinal surface and said second tapered longitudinal surface assist in separating said drive nut from said front ferrule and said rear ferrule during fitting disassembly. 8. The fitting of claim 7 wherein said first tapered longitudinal surface forms a first portion of said recess that receives said rear ferrule and said second tapered longitudinal surface forms a second portion of said recess that receives said front ferrule. 9. The fitting of claim 7 wherein said first tapered longitudinal surface and said second tapered longitudinal surface each taper at a respective angle that is the same as the other. 10. The fitting of claim 7 wherein said first tapered longitudinal surface and said second tapered longitudinal surface each taper at a respective angle that is different from the other. 11. The fitting of claim 7 , wherein said drive nut comprises a female threaded nut. 12. The fitting of claim 7 wherein said fitting body threadably mates with said drive nut. 13. The fitting of claim 12 wherein said front ferrule engages a ferrule camming surface of said fitting body during fitting pull-up, and said rear ferrule engages said drive surface during fitting pull-up. 14. The fitting of claim 13 wherein a radially outermost portion of said front ferrule is radially spaced by a gap g 1 from said second tapered longitudinal surface when the fitting is assembled prior to pull-up. 15. The fitting of claim 13 wherein a radially outermost portion of said rear ferrule is radially spaced by a gap g 2 from said first tapered longitudinal surface when the fitting is assembled prior to pull-up.