Vehicle air vent

The invention claimed is: 1. An air vent for a vehicle, comprising: an air mover; a plurality of thermal control channels, wherein each thermal control channel includes a magnetocaloric material; a magnet configured to induce a changing magnetic field in the magnetocaloric material; and a vent damper downstream of the plurality of thermal control channels, wherein the vent damper is configured to selectively direct airflow from the air mover through the plurality of thermal control channels and divert air from at least one thermal control channel to a vent space and air from at least one other thermal control channel to a regulated temperature space, and wherein the plurality of thermal control channels is located wholly between the air mover and the vent damper. 2. The air vent of claim 1 , further comprising a housing that at least partially encloses the air mover, the thermal control channels, and the vent damper. 3. The air vent of claim 1 , wherein the magnet comprises at least one permanent magnet that rotates around each of the plurality of thermal control channels. 4. The air vent of claim 1 , wherein the vent damper is configured to rotate with respect to the thermal control channels. 5. The air vent of claim 4 , wherein the vent damper includes a rotating outlet plate. 6. The air vent of claim 5 , wherein the rotating outlet plate has a primary outlet, the primary outlet being sized to accommodate airflow from one of the thermal control channels. 7. The air vent of claim 6 , wherein the rotating outlet plate has a secondary outlet that is smaller than the primary outlet. 8. The air vent of claim 5 , wherein the vent damper includes a venting plate upstream of the rotating outlet plate. 9. The air vent of claim 1 , wherein the plurality of thermal control channels are part of a thermal control cartridge having a plurality of inner walls, each inner wall dividing two thermal control channels, and a center hub joining the plurality of inner walls. 10. The air vent of claim 9 , wherein the center hub accommodates a rotation crosspiece. 11. An air vent for a vehicle, comprising: an air mover; a plurality of thermal control channels, wherein each thermal control channel includes a magnetocaloric material; a magnet configured to induce a changing magnetic field in the magnetocaloric material; and a vent damper downstream of the plurality of thermal control channels, wherein the vent damper is configured to selectively direct airflow from the air mover through the plurality of thermal control channels and divert air from at least one thermal control channel to a vent space and air from at least one other thermal control channel to a regulated temperature space, wherein the plurality of thermal control channels are part of a thermal control cartridge having a plurality of inner walls, each inner wall dividing two thermal control channels, and a center hub joining the plurality of inner walls, wherein the center hub accommodates a rotation crosspiece, and wherein the rotation crosspiece connects to the vent damper and the magnet via a support spoke, wherein a length of the support spoke is greater than a radius of the thermal control cartridge. 12. A method of thermally controlling a vehicle with an air vent, the air vent comprising an air mover, a first thermal control channel including a magnetocaloric material, a second thermal control channel including a magnetocaloric material, a third thermal control channel including a magnetocaloric material, a magnet for inducing a magnetic field in the magnetocaloric material of the first, second, and third thermal control channels, and a vent damper downstream of the first, second, and third thermal control channels, the vent damper configured to selectively direct airflow from the air mover, wherein the first, second, and third thermal control channels are part of a thermal control cartridge having a plurality of inner walls, each inner wall dividing two thermal control channels, and a center hub joining the plurality of inner walls, wherein the vent damper is coaxial with the thermal control cartridge, the method comprising the steps of: inducing a magnetic field in the magnetocaloric material in the first thermal control channel; outputting air passing through the first thermal control channel at a peak of the magnetic field induced in the magnetocaloric material in the first thermal control channel; inducing a magnetic field in the magnetocaloric material in the second thermal control channel; outputting air passing through the second thermal control channel at a peak of the magnetic field induced in the magnetocaloric material in the second thermal control channel; inducing a magnetic field in the magnetocaloric material in the third thermal control channel; and outputting air passing through the third thermal control channel at a peak of the magnetic field induced in the magnetocaloric material in the third thermal control channel. 13. The air vent of claim 1 , wherein the vent space is an exterior of the vehicle, a trunk of the vehicle, or inside a seat of the vehicle. 14. The air vent of claim 1 , wherein a center hub between the plurality of thermal control channels accommodates a rotation crosspiece that connects to the vent damper and the magnet via a support spoke. 15. The air vent of claim 1 , wherein a drive shaft for the vent damper extends through a center hub between the plurality of thermal control channels. 16. The air vent of claim 9 , wherein the vent damper is coaxial with the thermal control cartridge. 17. The air vent of claim 1 , wherein the vent damper is coaxial with the plurality of thermal control channels. 18. The air vent of claim 1 , wherein the magnet comprises a plurality of electromagnetic coils, each electromagnetic coil being located in each of the plurality of thermal control channels.