Remote winch clutch system

What is claimed is: 1. A winch, comprising: a rotatable drum; and a gear train drivingly connecting a motor to said rotatable drum, said gear train including a clutch that is operable to be disengaged to allow said rotatable drum to free spool, and a clutch actuator for disengaging said clutch, said clutch including a pivoting pawl having a first end that engages a clutch dog of a planetary ring gear and said clutch actuator includes an electro-magnetic solenoid having a plunger that engages a second end of said pivoting pawl, where the pivoting pawl, from the first end to the second end, is arranged parallel to a drive shaft of the gear train. 2. The winch according to claim 1 , wherein said electro-magnetic solenoid includes a spring that biases the plunger toward a direction that engages said pivoting pawl with said clutch dog and wherein the drum is disposed between the gear train and the motor. 3. The winch according to claim 1 , wherein when the electro-magnetic solenoid is energized, the plunger is moved to a retracted position which causes the pivoting pawl to pivot about a pivot pin to disengage the first end from the clutch dog, the pivot pin arranged at a midsection of the pivoting pawl. 4. The winch according to claim 1 , wherein said electro-magnetic solenoid includes a first coil and a second coil, each of the first coil and the second coil concentric with the plunger, said first coil being operated along with said second coil to retract the plunger and said plunger being held in a retracted position by only said first coil. 5. The winch according to claim 4 , wherein said second coil provides a higher force than said first coil and wherein the first coil is maintained in an actuated state for an extended period of time relative to the second coil. 6. The winch according to claim 5 , further comprising a winch controller that controls operation of said electro-magnetic solenoid and that limits a maximum on-time for each of the first and second coils. 7. The winch according to claim 1 , further comprising a limit switch provided on the electro-magnetic solenoid that is tripped by one of said plunger and said pivoting pawl when the plunger and pivoting pawl are in a disengaged position, said limit switch being in communication with a controller to indicate that the clutch is in a disengaged position to allow the rotatable drum to free spool. 8. The winch according to claim 1 , wherein the gear train includes a housing mounted to a drum support of the drum and wherein said pivoting pawl includes a pawl head at the first end with an angled face, said pivoting pawl is pivoted about a pivot pin, the pivot pin arranged perpendicular to the drive shaft of the gear train and a direction a movement of the plunger, the pivot pin held in a pair of pockets in the housing by a spring member that deflects when said rotatable drum is under load and the pivoting pawl is engaged with said clutch dog, allowing the pivoting pawl to move laterally in a direction parallel to the pivot pin and perpendicular to the drive shaft. 9. The winch according to claim 8 , wherein a pawl stop is provided on the housing and positioned with a small gap to the pawl head, wherein when said pawl head moves laterally against the spring member, the gap is closed and the pawl head rests against the pawl stop, said pawl stop and said pawl head have angled opposing faces which impact a radial force on the pivoting pawl to hold it in an engaged position. 10. The winch according to claim 1 , wherein the gear train includes a housing mounted to a drum support of the drum, wherein the electro-magnetic solenoid is arranged within and at an end of the housing, away from the drum support, and wherein said pivoting pawl is pivoted about a midsection thereof and wherein said plunger is oriented in a downward direction so that gravity biases the plunger toward a normally engaged position of the pivoting pawl and wherein when the plunger moves downward, the first end of the pivoting pawl moves upward to engage the clutch dog. 11. The winch according to claim 1 , wherein one end of the plunger engages the second end of the pivoting pawl and wherein another end of the plunger, opposite the one end engaged with the pivoting pawl, includes a cylindrical outer wall and a stepped feature including a generally flat face portion and a cone shaped portion extending from the generally flat face portion. 12. A clutch control system for a winch, comprising: a rotatable drum rotatably supported by a first drum support and a second drum support; a gear train drivingly connecting a motor to said rotatable drum, the drum disposed between the gear train and the motor, where a housing of the gear train is mounted to the second drum support, said gear train including a clutch that is operable to be disengaged to allow said rotatable drum to free spool, and a clutch actuator for disengaging said clutch, the gear train and clutch actuator disposed within the housing, the clutch actuator further disposed at an end of the housing outboard of the gear train, where an axis of a drive shaft of the gear train intersects the clutch actuator; and a remote control device including a winch power-in button, a winch power-out button and a free-spool button, the free-spool button activates the clutch actuator to shift the gear train to free-spool mode when the free-spool button is pressed on the remote control device, wherein the gear train automatically shifts into normal operation mode when either of the winch power-in or power-out buttons are pressed. 13. The method of claim 12 , wherein the clutch includes a pivoting pawl having a first end that engages a clutch dog of a planetary ring gear and the clutch actuator includes an electro-magnetic solenoid having a plunger that engages a second end of the pivoting pawl. 14. A winch, comprising: a rotatable drum; and a gear train drivingly connecting a motor to said rotatable drum, said gear train including a clutch that is operable to be disengaged to allow said rotatable drum to free spool, and a clutch actuator for disengaging said clutch, said clutch including a pivoting pawl having a first end that engages a clutch dog of a planetary ring gear and said clutch actuator includes an electro-magnetic solenoid having a plunger that engages a second end of said pivoting pawl, where downward movement of the plunger causes the pivoting pawl to pivot upward and into engagement with the planetary ring gear of the gear train, said electro-magnetic solenoid includes an outer, first coil and an inner, second coil, said first coil being operated along with said second coil to retract the plunger and said plunger being held in a retracted position by only said first coil, each of the first coil and the second coil concentric with the plunger. 15. The winch according to claim 14 , wherein said second coil provides a higher force than said first coil and wherein the second coil is actuated for a first period of time and the first coil is actuated for the first period of time and an extended, second period of time. 16. The winch according to claim 15 , further comprising: a remote control device including a winch power-in button, a winch power-out button and a free-spool button, the free-spool button activates the clutch actuator to shift the gear train to free-spool mode when the free-spool button is pressed on the remote control device; and a winch controller that controls operation of said electro-magnetic solenoid and that limits a maximum on-time for each of the first and second coils and wherein each of the winch power-in and power-out butt