Moving drum winch

What is claimed is: 1. A winch assembly comprising: a mount attachable to a vehicle; a guide, attached to the mount and comprising a fairlead, having sensors in proximity to the orifice on the fairlead which detect pressure; a winch, having a drum for winding and unwinding a line, and a motor for driving the drum about a winding axis, wherein the drum has a helical groove for receiving the line as it is wound, and wherein the line passes through the fairlead; a frame connected to the first and second end of the drum, wherein the frame is adapted to move relative to the guide so as to synchronize movement of the drum along the winding axis so that the line passing through the fairlead is aligned with the helical groove during winding and unwinding; and a rod attached to the frame and generally parallel to the winding axis, and passing through a hole in the guide, so as to allow the movement of the drum along the winding axis but prevent the frame from rotating about the winding axis; wherein the mount comprises a proximal end which attaches to the vehicle and a distal end that attaches to the guide and wherein the proximal end and distal end are pivotably connected, whereby the guide and winch are allowed to pivot about an axis perpendicular to the winding axis; wherein the guide and winch pivot freely in response to a direction of an applied load; wherein when pressure exceeds a predetermined threshold, the winch assembly swivels, tilts, or rotates in the direction that will relieve the sensed pressure. 2. The invention of claim 1 , wherein walls of the helical groove extend radially a distance greater than a diameter of the line, and wherein an internal surface of the guide comprises a helical ridge that engages with the helical groove. 3. The invention of claim 2 , wherein the mount comprises bearings to facilitate pivoting. 4. The invention of claim 1 , wherein the line lays in the helical groove and radially extends beyond walls of the helical groove, and wherein an internal surface of the guide comprises a helical ridge that engages with the line in the helical groove. 5. The invention of claim 1 , wherein the mount comprises a locking pin to prevent pivoting. 6. The invention of claim 1 , wherein the proximal end of the mount comprises an extendable and retractable arm, whereby the guide and winch can be extended a greater distance from the vehicle to facilitate pivoting. 7. The invention of claim 6 wherein the extendable and retractable arm is motorized. 8. The invention of claim 6 wherein the extendable and retractable arm is manually operated. 9. The invention of claim 1 , wherein the guide and winch are allowed to pivot through 90 degrees. 10. The invention of claim 1 , further comprising a torsion spring attached to the guide and the mount for holding the winch in a home position when a load is not pulling the winch. 11. The invention of claim 1 , wherein the rod and the guide are threaded. 12. The invention of claim 1 , further comprising a battery to power the motor. 13. A winch assembly, comprising; a mount attachable to a vehicle; a guide, attached to the mount and comprising a fairlead, having sensors in proximity to the orifice on the fairlead which detect pressure; a winch, having a drum for winding and unwinding a line, and a motor for driving the drum about a winding axis, wherein the drum has a helical groove for receiving the line as it is wound, and wherein the line passes through the fairlead; a frame connected to the first and second end of the drum, and a threaded rod rotatably attached to the frame and generally parallel to the winding axis, and passing through a threaded hole in the guide, whereby, as the threaded rod is rotated about an axis parallel to the winding axis, the frame is moved along the winding axis and the frame is prevented from rotating about the winding axis; wherein the movement of the frame by rotation of the threaded rod is configured to synchronize movement of the drum along the winding axis so that the line passing through the fairlead is aligned with the helical groove during winding and unwinding; wherein the mount comprises a proximal end which attaches to the vehicle and a distal end that attaches to the guide and wherein the proximal end and distal end are pivotably connected, whereby the guide and winch are allowed to pivot about an axis perpendicular to the winding axis; wherein the guide and winch pivot freely in response to a direction of an applied load; wherein when pressure exceeds a predetermined threshold, the winch assembly swivels, tilts, or rotates in the direction that will relieve the sensed pressure. 14. The invention of claim 13 , wherein walls of the helical groove extend radially a distance greater than a diameter of the line, and wherein an internal surface of the guide comprises a helical ridge that engages with the helical groove. 15. The invention of claim 13 , wherein the line lays in the helical groove and radially extends beyond walls of the helical groove, and wherein an internal surface of the guide comprises a helical ridge that engages with the line in the helical groove. 16. The invention of claim 13 , wherein the mount comprises a proximal end which attaches to the vehicle and a distal end that attaches to the guide and wherein the proximal end and distal end are pivotably connected, whereby the guide and winch are allowed to pivot about an axis perpendicular to the winding axis. 17. The invention of claim 16 , wherein pivoting of the guide and winch is automated. 18. The invention of claim 13 , further comprising gears, such that as the motor drives the drum about the winding axis, the gears are rotated, and the rod is driven about an axis.