Compact heat resistant flex coupling assembly with restrictive bending

Having thus described the invention, it is claimed: 1. A flex coupling assembly, comprising: an inner housing having a generally cylindrical inner housing wall extending along an axis and bounding an inner housing cavity between an inner housing first end and an inner housing second end, said inner housing first end having an inner housing end face extending generally transversely to said axis and said inner housing second end being open; a first shaft fixed to said inner housing end face and extending along said axis; an outer housing having a generally cylindrical outer housing wall extending along said axis and bounding an outer housing cavity between an outer housing first end and an outer housing second end, said outer housing first end having an outer housing end face extending generally transversely to said axis and said outer housing second end being open; a second shaft fixed to said outer housing end face and extending along said axis; a resilient flex coupling fixed to said inner housing in said inner housing cavity; and a retention member fixed to said outer housing by at least one retention fastener member and retaining said inner housing in said outer housing cavity, wherein said inner housing and said outer housing are moveable relative to one another axially along said axis and rotatably about said axis via flexing of said resilient flex coupling. 2. The flex coupling assembly of claim 1 , wherein said inner housing end face has at least one through opening, said at least one retention fastener member extending through said at least one through opening in clearance relation therewith, wherein said at least one through opening acts as a positive stop to limit the degree of relative rotation between said inner housing and said outer housing. 3. The flex coupling assembly of claim 2 , wherein said retention member has at least one protrusion extending through said at least one through opening in clearance relation therewith into engagement with said resilient flex coupling, said at least one retention fastener member extending through said at least one protrusion. 4. The flex coupling assembly of claim 3 , wherein said at least one retention fastener member includes a plurality of retention fastener members, said at least one through opening includes a plurality of through openings, and said at least one protrusion includes a plurality of protrusions, said plurality of retention fastener members extending through said plurality of protrusions and said plurality of protrusions extending through said plurality of through openings in clearance relation therewith. 5. The flex coupling assembly of claim 1 , wherein said resilient flex coupling is fixed to said inner housing by at least one coupling fastener member and wherein said retention member has at least one slot, said at least one coupling fastener member extending into said at least one slot in clearance relation therewith. 6. The flex coupling assembly of claim 5 , wherein said inner housing end face has at least one through opening, said at least one retention fastener member extending through said at least one through opening in clearance relation therewith, wherein at least one of said at least one slot and said at least one through opening acts as a positive stop to limit the degree of relative rotation between said inner housing and said outer housing. 7. The flex coupling assembly of claim 6 , wherein said retention member has at least one protrusion extending through said at least one through opening in clearance relation therewith into engagement with said resilient flex coupling, said at least one retention fastener member extending through said at least one protrusion. 8. The flex coupling assembly of claim 7 , wherein said at least one through opening acts as a positive stop against said at least one protrusion to limit the degree of relative rotation between said inner housing and said outer housing. 9. The flex coupling assembly of claim 1 , wherein said generally cylindrical inner housing wall and said generally cylindrical outer housing wall are spaced radially from one another by an annular gap and further including an annular band disposed in said annular gap. 10. The flex coupling assembly of claim 9 , wherein said annular band is circumferentially discontinuous. 11. The flex coupling assembly of claim 9 , wherein said annular band is fixed to one of said generally cylindrical inner housing wall and said generally cylindrical outer housing wall. 12. The flex coupling assembly of claim 1 , wherein said resilient flex coupling has a metal core overmolded with an elastomeric body. 13. A flex coupling assembly, comprising: an inner housing subassembly including, an inner housing having a generally cylindrical inner housing wall extending along an axis and bounding an inner housing cavity between an inner housing first end and an inner housing second end, said inner housing first end having an inner housing end face extending generally transversely to said axis and having at least one through opening and said inner housing second end being open, a first shaft fixed to said inner housing end face and extending along said axis, and a resilient flex coupling fixed to said inner housing in said inner housing cavity; an outer housing subassembly including, an outer housing having a generally cylindrical outer housing wall extending along said axis and bounding an outer housing cavity between an outer housing first end and an outer housing second end, said outer housing first end having an outer housing end face extending generally transversely to said axis and said outer housing second end being open, and a second shaft fixed to said outer housing end face and extending along said axis; said inner housing subassembly being disposed in said outer housing cavity; and a retention member fixed to said outer housing by at least one retention fastener member, said at least one retention fastener member extending through said at least one through opening in said inner housing end face in clearance relation therewith and retaining said inner housing subassembly in said outer housing cavity, wherein said inner housing and said outer housing are moveable relative to one another axially along said axis and rotatably about said axis via flexing of said resilient flex coupling. 14. The flex coupling assembly of claim 13 , wherein said retention member has at least one protrusion extending through said at least one through opening in clearance relation therewith into engagement with said resilient flex coupling, said at least one retention fastener member extending through said at least one protrusion, wherein said at least one through opening acts as a positive stop to limit the degree of relative rotation between said inner housing and said outer housing. 15. The flex coupling assembly of claim 14 , wherein said at least one retention fastener member includes a plurality of retention fastener members, said at least one through opening includes a plurality of through openings, and said at least one protrusion includes a plurality of protrusions, said plurality of retention fastener members extending through said plurality of protrusions and said plurality of protrusions extending through said plurality of through openings in clearance relation therewith into engagement with said resilient flex coupling. 16. The flex coupling assembly of claim 15 , wherein said generally cylindrical inner housing wall and said generally cylindrical outer housing wall are spaced radially from one another by an annular gap and further including a