Apparatuses and methods for coupling threaded fasteners

1 - 22 . (canceled) 23 . A rotary-drive sub-assembly ( 400 ), comprising: a tool ( 410 ), comprising: a fastener-engagement portion ( 411 ); a first threaded portion ( 413 ); and a tool-change-engagement portion ( 412 ) between the fastener-engagement portion ( 411 ) and the first threaded portion ( 413 ); and a tool retainer ( 430 ), comprising: a body ( 431 ) comprising: a symmetry axis ( 493 ); a second threaded portion ( 433 ), configured to be threadably fastened with the first threaded portion ( 413 ) of the tool ( 410 ) so that the tool ( 410 ) is rotationally anchored relative to the body ( 431 ) of the tool retainer ( 430 ) about the symmetry axis ( 493 ) and is translationally anchored relative to the body ( 431 ) of the tool retainer ( 430 ) along the symmetry axis ( 493 ); and a key ( 432 ), fixed relative to the second threaded portion ( 433 ); and a retaining member ( 461 ), removably coupled to the body ( 431 ) at a fixed location. 24 - 27 . (canceled) 28 . The rotary-drive sub-assembly ( 400 ) according to claim 23 , wherein the fastener-engagement portion ( 411 ) of the tool ( 410 ) is co-axial with the tool-change-engagement portion ( 412 ) of the tool ( 410 ), the first threaded portion ( 413 ) of the tool ( 410 ), and the second threaded portion ( 433 ) of the tool retainer ( 430 ). 29 . (canceled) 30 . (canceled) 31 . The rotary-drive sub-assembly ( 400 ) according to claim 23 , wherein: the body ( 431 ) of the tool retainer ( 430 ) comprises a retaining-member engagement portion ( 460 ); and the retaining member ( 461 ) of the tool retainer ( 430 ) engages the retaining-member engagement portion ( 460 ) so that the retaining member ( 461 ) is fixed relative to the body ( 431 ) of the tool retainer ( 430 ) along the symmetry axis ( 493 ). 32 . A rotary drive ( 199 - 2 ), comprising: a tool ( 410 ), comprising: a fastener-engagement portion ( 411 ); a first threaded portion ( 413 ); and a tool-change-engagement portion ( 412 ) between the fastener-engagement portion ( 411 ) and the first threaded portion ( 413 ); a tool retainer ( 430 ), comprising: a body ( 431 ) comprising: a symmetry axis ( 493 ); a second threaded portion ( 433 ), configured to be threadably fastened with the first threaded portion ( 413 ) of the tool ( 410 ) so that the tool ( 410 ) is rotationally anchored relative to the body ( 431 ) of the tool retainer ( 430 ) about the symmetry axis ( 493 ) and is translationally anchored relative to the body ( 431 ) of the tool retainer ( 430 ) along the symmetry axis ( 493 ); and a key ( 432 ), fixed relative to the second threaded portion ( 433 ); and a retaining member ( 461 ), removably coupled to the body ( 431 ) at a fixed location; and a retaining assembly ( 140 - 2 ), configured to be coupled with the key ( 432 ) of the tool retainer ( 430 ) to limit rotation of the tool retainer ( 430 ) about the symmetry axis ( 493 ); and a socket ( 120 - 2 ), co-axially rotatable relative to the tool retainer ( 430 ) when the retaining assembly ( 140 - 2 ) is coupled with the key ( 432 ) of the tool retainer ( 430 ). 33 . (canceled) 34 . The rotary drive ( 199 ) according to claim 32 , wherein: the body ( 431 ) of the tool retainer ( 430 ) comprises a retaining-member engagement portion ( 460 ); and the retaining member ( 461 ) of the tool retainer ( 430 ) engages the retaining-member engagement portion ( 460 ) of the body ( 431 ) so that the retaining member ( 461 ) is fixed relative to the body ( 431 ) of the tool retainer ( 430 ) along the symmetry axis ( 493 ). 35 . The rotary drive ( 199 - 2 ) according to claim 32 , wherein: the socket ( 120 - 2 ) includes a flange ( 143 - 2 ), supporting the retaining member ( 161 - 2 ); and the retaining member ( 161 - 2 ) is located between the flange ( 143 - 2 ) and the retaining assembly ( 140 - 2 ). 36 . The rotary drive ( 199 - 2 ) according to claim 32 , further comprising a housing ( 100 H- 2 ), wherein the retaining assembly ( 140 - 2 ) comprises: a retaining member ( 150 B) coupled to the housing ( 100 H- 2 ) and comprising a retaining opening ( 151 A- 2 ), wherein the retaining opening ( 151 A- 2 ) is configured to engage the key ( 432 ) so as to rotationally constrain the tool retainer ( 430 ) relative to the housing ( 100 H- 2 ); and a resilient member ( 155 - 2 ), coupled to the housing ( 100 H) and biasing the retaining member ( 150 B) toward the housing ( 100 H- 2 ), wherein the resilient member ( 155 - 2 ) is movable relative to the retaining member ( 150 B). 37 . The rotary drive ( 199 - 2 ) according to claim 36 , wherein the retaining member ( 150 B) is configured to pivot relative to the housing ( 100 H- 2 ) and to translate relative to the housing ( 100 H- 2 ). 38 . The rotary drive ( 199 - 2 ) according to claim 37 , wherein: the retaining member ( 150 B) includes a recess ( 177 - 2 ), at least a portion of the resilient member ( 155 - 2 ) is received within the recess ( 177 - 2 ), and the recess ( 177 - 2 ) is sized to accommodate relative translational movement between the retaining member ( 150 B) and the resilient member ( 155 - 2 ). 39 . The rotary drive ( 199 - 2 ) according to claim 36 , wherein the retaining opening ( 151 A- 2 ) of the retaining member ( 150 B) is configured to engage the key ( 432 - 2 ) of the tool retainer ( 430 ) with an intrinsic rotational backlash. 40 . The rotary drive ( 199 - 2 ) according to claim 39 , wherein the intrinsic rotational backlash between the retaining opening ( 151 A- 2 ) of the retaining member ( 150 B) and the key ( 432 ) of the tool retainer ( 430 ) is less than about 10 degrees. 41 . (canceled) 42 . The rotary drive ( 199 - 2 ) according to claim 36 , wherein the retaining opening ( 151 A- 2 ) of the retaining member ( 150 B) is configured to engage the key ( 432 ) with an engineered rotational compliance. 43 . The rotary drive ( 199 - 2 ) according to claim 42 , wherein the engineered rotational compliance between the retaining opening ( 151 A- 2 ) of the retaining member ( 150 B) and the key ( 432 ) of the tool retainer ( 430 ) is between about 30 degrees and about 270 degrees. 44 . The rotary drive ( 199 - 2 ) according to claim 36 , wherein: the retaining opening ( 151 A- 2 ) of the retaining member ( 150 B) comprises a first pair of parallel walls ( 151 SP 1 - 2 ) and a second pair of parallel walls ( 151 SP 2 - 2 ); walls of the first pair of parallel walls ( 151 SP 1 - 2 ) are staggered relative to each other along a first axis (SPX 1 - 2 ), parallel to the first pair of parallel walls ( 151 SP 1 - 2 ); and walls of the second pair of parallel walls ( 151 SP 2 - 2 ) are staggered relative to each other along a second axis (SPX 2 - 2 ), parallel to the second pair of parallel walls ( 151 SP 2 - 2 ). 45 . (canceled) 46 . The rotary drive ( 199 - 2 ) according to claim 32 , further comprising a friction member ( 165 - 2 ), interposed between the socket ( 120 - 2 ) and the tool ( 410 ), wherein the friction member ( 165 - 2 ) is configured to transfer rotation of the socket ( 120 - 2 ), engaging a first fastener ( 198 ), to the tool ( 410 ) when the fastener-engagement portion ( 411 ) of the tool ( 410 ) is disengaged from a second fastener ( 197 ), that is threadably couplable with the first fastener ( 198 ), and is also configured to discontinue transferring the rotation of the socket ( 120 - 2 ) to the tool ( 410 ) when the fastener-engagement portion (