Actuator for a driveline component

What is claimed is: 1 . An actuator ( 64 ) comprising: an annular indexing guide ( 78 ) that is disposed along an actuation axis ( 102 ), the indexing guide ( 78 ) defining a first cam (C 1 ) having a plurality of first cam teeth ( 152 ) and a plurality of guide grooves ( 150 ), the first cam teeth ( 152 ) being spaced circumferentially about the indexing guide ( 78 ), the guide grooves ( 150 ) being spaced circumferentially about the indexing guide ( 78 ) such that each of the guide grooves ( 150 ) is disposed between a pair of the first cam teeth ( 152 ); a first indexing ring ( 80 ) slidably received on the indexing guide ( 78 ) for reciprocating motion along the actuation axis ( 102 ), the first indexing ring ( 80 ) defining a plurality of first spline teeth ( 184 ), a first abutment surface ( 170 ) and a second cam (C 2 ), the first spline teeth ( 184 ) being disposed on an internal surface of the first indexing ring ( 80 ) and received in the guide grooves ( 150 ), the second cam (C 2 ) being spaced apart from the first abutment surface ( 170 ) along the actuation axis ( 102 ) and having a plurality of second cam teeth ( 174 ); a second indexing ring ( 82 ) slidably received on the indexing guide ( 78 ) for reciprocating motion along the actuation axis ( 102 ), the second indexing ring ( 82 ) defining a plurality of second spline teeth ( 184 ′) and a third cam (C 2 ′), the second spline teeth being disposed on an interior surface of the second indexing ring ( 82 ) and engaging the first cam (C 1 ), the third cam (C 2 ′) being engaged to the second cam (C 2 ); an actuator output ( 76 , 76 ′); a first spring ( 88 ) on a side of the actuator output ( 76 , 76 ′) opposite the second indexing ring ( 82 ), the first spring ( 88 ) biasing the actuator output ( 76 , 76 ′) toward the second indexing ring ( 82 ); a motor ( 90 ) having a motor output member ( 212 ) that is configured to move the first indexing ring ( 80 ) along the actuation axis ( 102 ) from a first position to a second position, wherein the second spline teeth ( 184 ′) are not engaged to the first cam teeth ( 152 ) when the first indexing ring ( 80 ) is in the first position, and wherein the second spline teeth ( 184 ′) are disposed on the first cam teeth ( 152 ) when the first indexing ring ( 80 ) is in the second position. 2 . The actuator ( 64 ) of claim 1 , further comprising a second spring ( 84 ) disposed between the actuator output ( 76 , 76 ′) and the second indexing ring ( 82 ), the second spring ( 84 ) biasing the second indexing ring ( 82 ) away from the actuator output ( 76 , 76 ′) and toward the first indexing ring ( 80 ). 3 . The actuator ( 64 ) of claim 2 , wherein the second indexing ring ( 82 ) defines a second abutment surface ( 170 ′) that is spaced apart from the third cam (C 2 ′) along the actuation axis ( 102 ), the second abutment surface ( 170 ′) being configured to receive force exerted from the second spring ( 84 ). 4 . The actuator ( 64 ) of claim 3 , wherein the second abutment surface ( 170 ′) is formed on an axial end of the second indexing ring ( 82 ). 5 . The actuator ( 64 ) of claim 1 , wherein the motor ( 90 ) is a linear motor. 6 . The actuator ( 64 ) of claim 5 , wherein the linear motor comprises an armature ( 212 ) and an electromagnet ( 210 ) that is configured to move the armature ( 212 ). 7 . The actuator ( 64 ) of claim 6 , wherein the armature ( 212 ) abuts the first abutment surface ( 170 ). 8 . The actuator ( 64 ) of claim 1 , wherein the actuator output ( 76 ) defines a plurality of teeth ( 120 , 122 ). 9 . The actuator ( 64 ) of claim 1 , wherein the actuator output ( 76 ′) comprises a fork ( 300 ). 10 . The actuator ( 64 ) of claim 9 , wherein the fork ( 300 ) is mounted to a splined sleeve ( 302 ) such that translation of the fork ( 300 ) causes corresponding translation of the splined sleeve ( 302 ). 11 . An actuator ( 64 ) comprising: an annular indexing guide ( 78 ) that is disposed along an actuation axis ( 102 ), the indexing guide ( 78 ) defining a first cam (C 1 ) having a plurality of first cam teeth ( 152 ) and a plurality of guide grooves ( 150 ), the first cam teeth ( 152 ) being spaced circumferentially about the indexing guide ( 78 ), the guide grooves ( 150 ) being spaced circumferentially about the indexing guide ( 78 ) such that each of the guide grooves ( 150 ) is disposed between a pair of the first cam teeth ( 152 ); a first indexing ring ( 80 ) slidably received on the indexing guide ( 78 ) for reciprocating motion along the actuation axis ( 102 ), the first indexing ring ( 80 ) defining a plurality of first spline teeth ( 184 ), a first abutment surface ( 170 ) and a second cam (C 2 ), the first spline teeth ( 184 ) being disposed on an internal surface of the first indexing ring ( 80 ) and received in the guide grooves ( 150 ), the second cam (C 2 ) being spaced apart from the first abutment surface ( 170 ) along the actuation axis ( 102 ) and having a plurality of second cam teeth ( 174 ); a second indexing ring ( 82 ) rotatably and slidably received on the indexing guide ( 78 ), the second indexing ring ( 82 ) defining a plurality of second spline teeth ( 184 ′) and a third cam (C 2 ′), the second spline teeth ( 184 ′) being disposed on an interior surface of the second indexing ring ( 82 ) and engaging the first cam (C 1 ), the third cam (C 2 ′) being engaged to the second cam (C 2 ); an actuator output ( 76 , 76 ′); a first spring ( 84 ) between the actuator output ( 76 , 76 ′) and the second indexing ring ( 82 ) the first spring ( 84 ) biasing the second indexing ring ( 82 ) away from the actuator output ( 76 , 76 ′) and toward the first indexing ring ( 80 ); a second spring ( 88 ) on a side of the actuator output ( 76 , 76 ′) opposite the first spring ( 84 ), the second spring ( 88 ) biasing the actuator output ( 76 , 76 ′) toward the second indexing ring ( 82 ); a motor ( 90 ) having a motor output member ( 212 ) that is configured to move the first indexing ring ( 80 ) along the actuation axis ( 102 ) from a first position to a second position, wherein engagement of the second and third cam teeth ( 174 , 174 ′) as the first indexing ring ( 80 ) is repeatedly reciprocated between the first and second positions causes rotation of the second indexing ring ( 82 ) about the actuator axis ( 102 ) such that the second spline teeth ( 184 ′) can be alternately aligned to the first cam teeth ( 152 ) and the guide grooves ( 150 ). 12 . The actuator ( 64 ) of claim 11 , wherein each of the first cam teeth ( 152 ) defines a first ramp ( 160 ), a valley ( 162 ), an abutment wall ( 164 ) and a second ramp ( 166 ), wherein force exerted onto the second indexing ring ( 82 ) by the first spring ( 84 ) when the actuator output ( 76 , 76 ′) is in the first position and the second spline teeth ( 184 ′) are received onto the first ramps ( 160 ) causes rotation of the second indexing ring ( 82 ) about the actuation axis ( 102 ) so that the second spline teeth ( 184 ′) are received in the valleys ( 162 ) and abutted against the abutment walls ( 164 ), and wherein force exerted onto the second indexing ring ( 82 ) by the first spring ( 84 ) when the actuator output ( 76 , 76 ′) is in the first position and the second spline teeth ( 184 ′) are received onto the second ramps ( 166 ) causes rotation of the second indexing ring ( 82 ) about the first actuation axis ( 102 ) so that the second spline teeth ( 184 ′) are received into the guide grooves ( 150 ). 13 . The actuator ( 64 ) of claim 11 , wherein the second indexing ring ( 82 ) defines a second abutment surface ( 170 ′) that is spaced apart from the thi