Hybrid induction heating/welding assembly

The invention claimed is: 1. A hybrid induction heating/welding assembly comprising: a protective outer housing; a metal working tool configured to perform a metal working process on at least one workpiece, wherein the metal forming tool is at least partially enclosed within the protective outer housing; at least one induction heating coil configured to apply induction heat to the at least one workpiece, wherein the at least one induction heating coil is disposed proximate the metal forming tool, and wherein the at least one induction heating coil is at least partially enclosed within the protective outer housing; and a mechanical motion system configured to control position, orientation, or movement of the protective outer housing, the at least partially enclosed metal working tool, and the at least partially enclosed at least one induction heating coil relative to the at least one workpiece. 2. The hybrid induction heating/welding assembly of claim 1 , comprising a flux concentrator material at least partially disposed around the at least one induction heating coil. 3. The hybrid induction heating/welding assembly of claim 1 , wherein the metal working tool comprises a welding torch. 4. The hybrid induction heating/welding assembly of claim 1 , wherein the metal working tool comprising a plasma cutting torch. 5. The hybrid induction heating/welding assembly of claim 1 , comprising a spray head configured to deliver a coolant to a surface of the at least one workpiece. 6. The hybrid induction heating/welding assembly of claim 5 , wherein the coolant comprises water. 7. The hybrid induction heating/welding assembly of claim 5 , comprising an air knife configured to direct a curtain of air to the surface of the at least one workpiece to maintain a relatively dry spot on the at least one workpiece to facilitate induction heating of the at least one workpiece by the at least one induction heating coil. 8. The hybrid induction heating/welding assembly of claim 7 , wherein the air knife comprises a circular air knife. 9. The hybrid induction heating/welding assembly of claim 7 , wherein the air knife comprises a frustoconical air knife. 10. The hybrid induction heating/welding assembly of claim 1 , comprising at least one laser height sensor disposed within the protective outer housing and configured to detect a distance relating to a distance of the at least one induction heating coil from a surface of the at least one workpiece. 11. The hybrid induction heating/welding assembly of claim 10 , comprising a laser height sensor module disposed within the protective outer housing, communicatively coupled to the at least one laser height sensor, and configured to determine the distance of the at least one induction heating coil from the surface of the at least one workpiece. 12. The hybrid induction heating/welding assembly of claim 1 , comprising an infrared temperature sensor module disposed within the protective outer housing and configured to determine at least one temperature proximate the at least one induction heating coil or a surface of the at least one workpiece. 13. The hybrid induction heating/welding assembly of claim 1 , comprising a compressed air manifold disposed within the protective outer housing and configured to deliver compressed air to a surface of the at least one workpiece. 14. The hybrid induction heating/welding assembly of claim 13 , comprising one or more air valves disposed within the protective outer housing and configured to control flow rates of one or more air streams delivered to the surface of the at least one workpiece. 15. The hybrid induction heating/welding assembly of claim 14 , comprising one or more air flow sensors disposed within the protective outer housing and configured to detect the flow rates of the one or more air streams delivered to the surface of the at least one workpiece. 16. The hybrid induction heating/welding assembly of claim 1 , comprising a water manifold disposed within the protective outer housing and configured to deliver water to a surface of the at least one workpiece. 17. The hybrid induction heating/welding assembly of claim 16 , comprising one or more water flow sensors disposed within the protective outer housing and configured to detect flow rates of one or more water flow streams delivered to the surface of the at least one workpiece. 18. The hybrid induction heating/welding assembly of claim 16 , comprising one or more water temperature sensors disposed within the protective outer housing and configured to detect temperatures of one or more water flow streams delivered to the surface of the at least one workpiece. 19. The hybrid induction heating/welding assembly of claim 1 , wherein the protective outer housing comprises high density polypropylene, ceramic, plexiglass, or some combination thereof. 20. The hybrid induction heating/welding assembly of claim 1 , comprising an access cover configured to facilitate access to internal components of the hybrid induction heating/welding assembly. 21. The hybrid induction heating/welding assembly of claim 1 , comprising a motorized mount configured to mount the hybrid induction heating/welding assembly to the mechanical motion system. 22. A hybrid induction heating/welding assembly comprising: a protective outer housing; a metal working tool configured to perform a metal working process on at least one workpiece, wherein the metal forming tool is at least partially enclosed within the protective outer housing; at least one induction heating coil configured to apply induction heat to the at least one workpiece, wherein the at least one induction heating coil is disposed proximate the metal forming tool, and wherein the at least one induction heating coil is at least partially enclosed within the protective outer housing; and a coil protective housing disposed directly adjacent the at least one induction heating coil and between the metal working tool and the at least one induction heating coil.