Surgical robotic systems for bending surgical rods, and related methods and devices

What is claimed is: 1. A robotic system for automatically bending a surgical rod, comprising: a robot base; rod feeding subassembly coupled to the robot base, the rod feeding subassembly comprising a feeding actuator configured to: retain a surgical rod therein, and selectively move the surgical rod in a direction parallel to a longitudinal axis of the surgical rod; a brake subassembly coupled to the robot base, the brake subassembly comprising a brake actuator configured to: receive the surgical rod from the rod feeding subassembly, and selectively fix a first portion of the surgical rod with respect to the brake subassembly; and a bending subassembly coupled to the robot base, the bending subassembly comprising a bending actuator configured to: selectively rotate about a first rotational axis perpendicular to the longitudinal axis of the surgical rod, wherein rotating the bending actuator causes the bending actuator to engage a second portion of the surgical rod and bend the second portion of the surgical rod with respect to the first portion of the surgical rod so that the first portion and the second portion of the surgical rod define a first bend angle wherein the robotic system further includes a bending robot that includes the robot base and a controlling unit, the controlling unit configured to control and monitor the operation of the bending robot, wherein the controlling unit further includes a controller base, a camera system, and a display device. 2. The robotic system of claim 1 , wherein the rod feeding subassembly further comprises: a motor; and a feeding actuator linkage coupled between the motor and the feeding actuator, wherein the feeding actuator linkage is configured to transfer power from the motor to the feeding actuator to selectively move the surgical rod in the direction parallel to the longitudinal axis of the surgical rod. 3. The robotic system of claim 2 , wherein the feeding actuator is configured to transfer power from the motor to the feeding actuator to selectively rotate the surgical rod about the longitudinal axis of the surgical rod. 4. The robotic system of claim 3 , wherein the motor comprises a first motor and a second motor, wherein the feeding actuator linkage comprises a first feeding actuator linkage coupled between the first motor and the feeding actuator and a second feeding actuator linkage coupled between the second motor and the feeding actuator, wherein selective operation of the first motor in a first rotational direction and selective operation of the second motor in a second rotational direction causes the first feeding actuator linkage and the second feeding actuator linkage to move the surgical rod in a first longitudinal direction parallel to the longitudinal axis of the surgical rod. 5. The robotic system of claim 4 , wherein selective operation of the first motor in a third rotational direction opposite the first rotational direction and selective operation of the second motor in a fourth rotational direction opposite the second rotational direction causes the first feeding actuator linkage and the second feeding actuator linkage to move the surgical rod in a second longitudinal direction opposite the first longitudinal direction, and wherein selective operation of the first motor in the first rotational direction and selective operation of the second motor in the fourth rotational direction causes the first feeding actuator linkage and the second feeding actuator linkage to rotate the surgical rod in a fifth rotational direction. 6. The robotic system of claim 3 , wherein selective operation of the first motor in the third rotational direction and selective operation of the second motor in the second rotational direction causes the first feeding actuator linkage and the second feeding actuator linkage to rotate the surgical rod in a sixth rotational direction opposite the fifth rotational direction. 7. The robotic system of claim 1 , wherein the brake subassembly further comprises: a motor; and a brake actuator linkage coupled between the motor and the brake actuator, wherein the brake actuator linkage is configured to transfer power from the motor to the brake actuator to selectively fix the first portion of the surgical rod with respect to the brake subassembly. 8. The robotic system of claim 7 , wherein the brake subassembly further comprises a blade configured to selectively cut the surgical rod. 9. The robotic system of claim 8 , wherein the brake actuator linkage is configured to transfer power from the motor to the blade to selectively cut the surgical rod. 10. The robotic system of claim 9 , wherein selective operation of the motor in a first rotational direction when the brake actuator is in a neutral position causes the brake actuator linkage to move the brake actuator from the neutral position to an engaged position to selectively fix the first portion of the surgical rod with respect to the brake subassembly, and wherein selective operation of the motor in a second rotational direction opposite the first rotational direction when the brake actuator is in the engaged position causes the brake actuator linkage to move the brake actuator from the engaged position to the neutral position to selectively release the first portion of the surgical rod with respect to the brake subassembly. 11. The robotic system of claim 10 , wherein selective operation of the motor in the second rotational direction when the brake actuator is in the neutral position causes the blade to cut the surgical rod. 12. The robotic system of claim 1 , wherein the bending subassembly further comprises: a motor; and a bending actuator linkage coupled between the motor and the bending actuator, wherein the bending actuator linkage is configured to transfer power from the motor to the bending actuator to selectively rotate the bending actuator about the first rotational axis and bend the second portion of the surgical rod with respect to the first portion of the surgical rod. 13. The robotic system of claim 12 , wherein the bending actuator comprises a roller bearing configured to engage the second portion of the surgical rod, wherein movement of the second portion of the surgical rod during bending causes the roller to rotate about a second rotational axis parallel to the first rotational axis. 14. The robotic system of claim 1 , wherein the feeding actuator is further configured to: after the bending actuator bends the second portion of the surgical rod with respect to the first portion of the surgical rod, selectively move the surgical rod in the direction parallel to the longitudinal axis of the surgical rod, and selectively rotate the surgical rod about the longitudinal axis of the surgical rod, wherein the brake actuator is further configured to: selectively fix a third portion of the surgical rod with respect to the brake subassembly, and wherein the bending actuator is further configured to: selectively rotate about the first rotational axis perpendicular to the longitudinal axis of the surgical rod, and selectively rotate about the first rotational axis to bend the first portion of the surgical rod with respect to the third portion of the surgical rod so that the third portion and the first portion of the surgical rod define a second bend angle. 15. The robotic system of claim 1 , further comprising a first housing comprising: a transmission input; a first transmission subassembly coupled between the transmission input and the feeding actuator; a second transmission subassembly coupled between the transmission input and the brake actuat