| CPC F16H 25/20 (2013.01) [B25J 9/102 (2013.01); B25J 9/106 (2013.01); B25J 9/108 (2013.01); B25J 9/123 (2013.01); B25J 17/0241 (2013.01); B62D 57/032 (2013.01); F16H 2025/204 (2013.01); F16H 2025/2043 (2013.01); F16H 2025/2075 (2013.01)] |
| AS A RESULT OF REEXAMINATION, IT HAS BEEN DETERMINED THAT: |
| Claims 1 and 14 are cancelled. |
| Claims 2, 5-9, 11, 13, 15, 18 and 19 are determined to be patentable as amended. |
| Claims 3, 4, 10, 12, 16 and 17, dependent on an amended claim, are determined to be patentable. |
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2. The robot of claim
a bearing carrier mounted within the upper leg member coaxial to the screw shaft; and
a bearing mounted coaxial to the screw shaft between the bearing carrier and the screw shaft such that an outer race of the bearing interfaces with an interior peripheral surface of the bearing carrier and an inner race of the bearing interfaces with an exterior peripheral surface of the screw shaft.
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5. The robot claim
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6.
a leg having an upper leg member and a lower leg member coupled to the upper leg member at a knee joint;
a screw actuator disposed within the upper leg member, the screw actuator comprising a screw shaft and a nut mounted coaxial to the screw shaft such that the screw shaft is rotatable within the nut;
a motor mounted at an upper portion of the upper leg member at or adjacent to a hip joint of the robot and coupled to the screw shaft, wherein rotation by the motor causes the screw shaft to rotate;
a carrier coupled and mounted coaxial to the nut such that the nut is disposed at a proximal end of the carrier; and
a linkage coupled to the carrier, the linkage coupled to the lower leg member at a knee pivot of the knee joint,
wherein rotation by the screw shaft causes:
the nut and the carrier to travel along an axis of the screw shaft; and
the linkage to rotate the lower leg member relative to the upper leg member at the knee pivot of the knee joint,]
wherein the linkage comprises:
a first link coupled to the carrier; and
a second link coupled to the first link at a joint configured to allow relative rotation between the first link and the second link, wherein the second link is coupled to the knee pivot to which the lower leg member is coupled, such that as the carrier travels, the carrier pushes the first link, which causes the second link to rotate about the knee pivot, the rotation of the second link causing the lower leg member to rotate about the knee pivot.
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7. The robot of claim
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8. The robot of claim
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9.
a leg having an upper leg member and a lower leg member coupled to the upper leg member at a knee joint;
a screw actuator disposed within the upper leg member, the screw actuator comprising a screw shaft and a nut mounted coaxial to the screw shaft such that the screw shaft is rotatable within the nut;
a motor mounted at an upper portion of the upper leg member at or adjacent to a hip joint of the robot and coupled to the screw shaft, wherein rotation by the motor causes the screw shaft to rotate;
a carrier coupled and mounted coaxial to the nut such that the nut is disposed at a proximal end of the carrier;
a linkage coupled to the carrier, the linkage coupled to the lower leg member at a knee pivot of the knee joint,
wherein rotation by the screw shaft causes:
the nut and the carrier to travel along an axis of the screw shaft; and
the linkage to rotate the lower leg member relative to the upper leg member at the knee pivot of the knee joint; and]
a nub fixedly mounted to the upper leg member and protruding radially inward within the upper leg member, wherein the carrier includes a longitudinal channel disposed on an exterior surface of the carrier, the longitudinal channel engaging the nub so as to preclude rotation of the carrier about the axis of the screw shaft.
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11. The robot of claim
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13. The robot of claim
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15. The assembly of claim
a first rail mounted longitudinally to an interior surface of the first member; and
a first roller coupled to a distal end of the carrier and configured to roll within the first rail.
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18. The assembly of claim
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19.
a first member;
a second member coupled to the first member at a first joint;
a screw actuator disposed within the first member, wherein the screw actuator has a screw shaft and a nut mounted coaxial to the screw shaft such that the screw shaft is rotatable within the nut;
a motor mounted at an upper portion of the first member at or adjacent to a second joint and coupled to the screw shaft, wherein rotation by the motor causes the screw shaft to rotate, and wherein the second joint is disposed at an end portion of the first member opposite the first joint;
a carrier coupled and mounted coaxial to the nut such that the nut is disposed at a proximal end of the carrier; and
a linkage coupled to the carrier, wherein the linkage is coupled to the second member at a pivot of the first joint,
wherein rotation by the screw shaft causes:
the nut and the carrier to travel along an axis of the screw shaft; and
the linkage to rotate the second member relative to the first member at the pivot of the first joint,]
wherein the linkage comprises:
a first link coupled to the carrier; and
a second link coupled to the first link such that the second link is allowed to rotate relative to the first link, wherein the second link is coupled to the pivot to which the second member is coupled, such that as the carrier travels, the carrier pushes the first link, which causes the second link to rotate about the pivot, the rotation of the second link causing the second member to rotate about the pivot.
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