Stabilizer bar disconnect

What is claimed is: 1. A vehicle stabilizer comprising: first and second side-bars; a housing fixed to the first side-bar, the housing defining at least two axial grooves; a tulip fixed to the second side-bar, the tulip defining at least two open-ended axial slots; a nut configured to move axially within the housing via an actuator between a first connected position and a second disconnected position, the nut having at least two pins, each one of the at least two pins corresponding with one of the at least two axial grooves; and, in the first connected position, each one of the at least two pins extend into one of the at least two open-ended axial slots to selectively torsionally couple the housing to the tulip so that the first side-bar is torsionally coupled to the second side-bar; and in the second disconnected position, each one of the at least two pins is moved out of the one of the at least two open-ended axial slots so that the first side-bar is torsionally uncoupled from the second side-bar. 2. The vehicle stabilizer of claim 1 further comprising a spring configured to bias the nut toward the first connected position. 3. The vehicle stabilizer of claim 1 further comprising a cover extending radially over the housing and a seal arranged between the cover and the tulip. 4. The vehicle stabilizer of claim 1 wherein the actuator is a ball screw actuator comprising: a stator fixed to the housing; a rotor; a threaded rod fixed to the rotor; and, a set of balls engaging threads of the threaded rod and internal threads of the nut. 5. The vehicle stabilizer of claim 1 , wherein each one of the at least two pins further comprises: an outer bearing configured to engage the corresponding one of the at least two axial grooves of the housing; and, an inner bearing configured to engage one of the at least two open-ended axial slots of the tulip. 6. A vehicle stabilizer comprising: first and second side-bars; a housing fixed to the first side-bar, the housing defining at least two axial grooves; a tulip fixed to the second side-bar, the tulip defining at least two open-ended axial slots; a nut configured to move axially within the housing between a first connected position and a second disconnected position, the nut having at least two pins configured to extend radially into the at least two axial grooves and, in the first connected position, extend radially into the at least two open-ended axial slots to selectively torsionally couple the housing to the tulip; and, a spring configured to bias the nut toward the first connected position. 7. The vehicle stabilizer of claim 6 further comprising an actuator configured to move the nut from the first connected position to the second disconnected position so that each one of the at least two pins moves through an open end of a corresponding one of the at least two open-ended axial slots to torsionally uncouple the housing from the tulip. 8. The vehicle stabilizer of claim 7 wherein the actuator is a ball screw actuator comprising: a stator fixed to the housing; a rotor; a threaded rod fixed to the rotor; and, a set of balls engaging threads of the threaded rod and internal threads of the nut. 9. A method of operating the vehicle stabilizer of claim 8 , the method comprising: providing electrical power to the stator to transition from the first connected position to the second disconnected position; and, withdrawing electrical power from the stator to transition from the second disconnected position to the first connected position. 10. The vehicle stabilizer of claim 6 further comprising: a cover extending radially over the housing; and, a seal radially arranged between the cover and the tulip. 11. The vehicle stabilizer of claim 6 , wherein each one of the at least two pins further comprises: an outer bearing configured to engage one of the at least two axial grooves of the housing; and, an inner bearing configured to engage one of the at least two open-ended axial slots of the tulip. 12. A vehicle stabilizer comprising: first and second side-bars; a disconnect unit configured to selectively torsionally couple the first and second side-bars, the disconnect unit having: a rotational axis; a housing fixed to the first side-bar; a tulip fixed to the second side-bar; a plurality of pins moved via an electric motor to selectively torsionally couple the tulip to the housing; and, in a first connected position of the disconnect unit: the plurality of pins are configured to torsionally couple the housing to the tulip; and, the plurality of pins are in a first radial position relative to the rotational axis; and, in a second disconnected position of the disconnect unit: the plurality of pins are uncoupled from the tulip; and, the plurality of pins are in the first radial position relative to the rotational axis. 13. The vehicle stabilizer of claim 12 , wherein the tulip further comprises a plurality of slots, each one of the plurality of slots corresponding with one of the plurality of pins, and the plurality of slots arranged non-symmetrically in a circumferential direction around the rotational axis. 14. The vehicle stabilizer of claim 12 , wherein each one of the plurality of pins extend outward in a radial direction relative to the rotational axis. 15. The vehicle stabilizer of claim 14 , wherein the plurality of pins are configured to be moved along a path parallel to the rotational axis. 16. The vehicle stabilizer of claim 12 , further comprising a nut, and the plurality of pins are disposed on the nut. 17. The vehicle stabilizer of claim 16 , wherein the nut is actuated by the electric motor. 18. The vehicle stabilizer of claim 17 , wherein the nut is actuated by the electric motor via a ball screw drive. 19. The vehicle stabilizer of claim 17 , further comprising a spring configured to bias the plurality of pins toward the first connected position. 20. The vehicle stabilizer of claim 12 , wherein: in the first connected position of the disconnect unit, the plurality of pins are in a first axial position relative to the rotational axis; and, in the second disconnected position of the disconnect unit, the plurality of pins are in a second axial position relative to the rotational axis.