Apparatuses for coupling threaded fasteners

What is claimed is: 1. A rotary-drive sub-assembly, comprising: a tool, comprising: a fastener-engagement portion; a first threaded portion; and a tool-change-engagement portion between the fastener-engagement portion and the first threaded portion; and a tool retainer, comprising: a symmetry axis; a second threaded portion, configured to be threadably fastened with the first threaded portion of the tool so that the tool is rotationally anchored relative to the tool retainer about the symmetry axis and is translationally anchored relative to the tool retainer along the symmetry axis; a key, fixed relative to the second threaded portion; and a retaining surface, fixed relative to the key. 2. The rotary-drive sub-assembly according to claim 1 , wherein the first threaded portion of the tool comprises a first external thread and the second threaded portion of the tool retainer comprises a first internal thread. 3. The rotary-drive sub-assembly according to claim 1 , wherein the first threaded portion of the tool comprises a second internal thread and the second threaded portion of the tool retainer comprises a second external thread. 4. The rotary-drive sub-assembly according to claim 1 , wherein the fastener-engagement portion of the tool is co-axial with the tool-change-engagement portion of the tool, the first threaded portion of the tool, and the second threaded portion of the tool retainer. 5. The rotary-drive sub-assembly according to claim 1 , wherein the second threaded portion of the tool retainer defines a through hole in the tool retainer. 6. The rotary-drive sub-assembly according to claim 1 , wherein the second threaded portion of the tool retainer defines a blind hole in the tool retainer. 7. The rotary-drive sub-assembly according to claim 1 , wherein the first threaded portion of the tool and the second threaded portion of the tool retainer comprise left-hand threads. 8. The rotary-drive sub-assembly according to claim 1 , wherein the first threaded portion of the tool and the second threaded portion of the tool retainer comprise right-hand threads. 9. A rotary drive, comprising: a rotary-drive sub-assembly, comprising: a tool, comprising: a fastener-engagement portion; a first threaded portion; and a tool-change-engagement portion between the fastener-engagement portion and the first threaded portion; a tool retainer, comprising: a symmetry axis; a second threaded portion, configured to be threadably fastened with the first threaded portion of the tool so that the tool is rotationally anchored relative to the tool retainer about the symmetry axis and is translationally anchored relative to the tool retainer along the symmetry axis; a key, fixed relative to the second threaded portion; and a retaining surface, fixed relative to the key; a retaining assembly, configured to engage the key of the tool retainer to limit rotation of the tool retainer about the symmetry axis; and a socket, co-axially rotatable relative to the tool retainer of the rotary-drive sub-assembly when the retaining assembly engages the key of the tool retainer. 10. The rotary drive according to claim 9 , wherein the rotary-drive sub-assembly is co-axially translatable relative to the socket. 11. The rotary drive according to claim 9 , further comprising a housing, wherein the retaining assembly comprises: a retaining member, coupled to the housing and comprising a retaining opening, wherein the retaining opening is configured to engage the key so as to rotationally constrain the tool retainer relative to the housing; and a resilient member, coupled to the housing and biasing the retaining member toward the housing, wherein the retaining member is movable relative to the resilient member. 12. The rotary drive according to claim 11 , wherein the retaining member is configured to pivot relative to the housing and to translate relative to the housing. 13. The rotary drive according to claim 12 , wherein: the retaining member includes a recess, at least a portion of the resilient member is received within the recess, and the recess is sized to accommodate relative translational movement between the retaining member and the resilient member. 14. The rotary drive according to claim 11 , wherein the retaining opening of the retaining member is configured to engage the key of the tool retainer with an intrinsic rotational backlash. 15. The rotary drive according to claim 14 , wherein the intrinsic rotational backlash between the retaining opening of the retaining member and the key of the tool retainer is less than about 10 degrees. 16. The rotary drive according to claim 11 , wherein the retaining opening of the retaining member comprises a pair of opposed parallel walls. 17. The rotary drive according to claim 11 , wherein the retaining opening of the retaining member is configured to engage the key with an engineered rotational compliance. 18. The rotary drive according to claim 17 , wherein the engineered rotational compliance between the retaining opening of the retaining member and the key of the tool retainer is between about 30 degrees and about 270 degrees. 19. The rotary drive according to claim 11 , wherein: the retaining opening of the retaining member comprises a first pair of parallel walls and a second pair of parallel walls; walls of the first pair of parallel walls are staggered relative to each other along a first axis, parallel to the first pair of parallel walls; and walls of the second pair of parallel walls are staggered relative to each other along a second axis, parallel to the second pair of parallel walls. 20. The rotary drive according to claim 11 , further comprising a drive transmission inside the housing, wherein the socket comprises a drive member, coupled to the drive transmission. 21. The rotary drive according to claim 9 , further comprising a friction member, interposed between the socket and the tool, wherein the friction member is configured to transfer rotation of the socket, engaging a first fastener, to the tool when the fastener-engagement portion of the tool is disengaged from a second fastener, that is threadably couplable with the first fastener, and is also configured to discontinue transferring the rotation of the socket to the tool when the fastener-engagement portion of the tool becomes engaged with the second fastener. 22. A tool, comprising: a fastener-engagement portion; a first threaded portion; and a tool-change-engagement portion between the fastener-engagement portion and the first threaded portion.