Climb assist system

The invention claimed is: 1. A climb aid and safety system, comprising: a motorized climb assist system configured to assist a user in using a ladder, the motorized climb assist system including a looped belt with an attaching member that is configured and arranged to be coupled to a safety harness of the user, the looped belt providing a pulling force to assist the user in using the ladder; the motorized climb assist system including a motor assembly including, an electric motor having a drive shaft, the motor generating a lift force, a drive sheave coupled to the drive shaft to convey the lift force of the motor to the drive sheave, the drive sheave being in frictional contact with the looped belt; and a fall arrest system integrated with the drive sheave of the motorized climb assist system, the fall arrest system configured and arranged to prevent the looped belt from moving during a fall event, the fall arrest system including, a ring catch coupled to the motor assembly, the ring catch including at least one protrusion; and at least one pawl pivotally coupled to the drive sheave, the at least one pawl configured and arranged to engage the at least one protrusion of the ring catch to prevent the drive shaft from rotating thereby preventing the looped belt from moving during a fall event; an upper guide configured to be coupled proximate a second end of the ladder, the motor assembly and the upper guide configured to movably engage the looped belt therebetween, the upper guide including; an extension member having a first end configured to be coupled proximate the second end of the ladder; an upper mounting plate coupled proximate a second end of the extension member; and an upper sheave rotationally coupled to the upper mounting plate, the upper sheave configured to engage the looped belt. 2. The system of claim 1 , wherein the motorized climb assist system further comprises: a tension adjusting assembly configured to be coupled proximate a first end of the ladder; and the motor assembly coupled to the tension adjusting assembly. 3. The system of claim 2 , wherein the tension adjusting assembly further comprises: a housing including opposing sides with an opening extending through the opposing sides, an attaching member received in the housing, the motor assembly coupled to the attaching member through the opening; a biasing member having a first end configured to engage the attaching member; and an adjusting member configured to engage a second end of the biasing member to adjust a tension in the looped belt. 4. The system of claim 3 , wherein the motor assembly further comprises: a retaining plate coupled to the motor; and at least one routing sheave rotationally coupled to the retaining plate, the at least one routing sheave configured to route the looped belt around the drive sheave and to the upper guide. 5. The system of claim 4 , further comprising; a movement sensor configured to detect motion of the at least one routing sheave. 6. The system of claim 5 , further comprising: a controller configured to control the motor, the controller further configured to control the motor based at least in part on a signal from the movement sensor. 7. The system of claim 4 , wherein the drive sheave includes a slip clutch that engages the drive shaft of the motor. 8. The system of claim 1 , wherein the fall arrest system of the motor assembly further comprises: an elastic bushing for each pawl, each elastic bushing positioned about a pivot connect that pivotally connects an associated pawl to the drive sheave. 9. The system of claim 1 , wherein the upper mounting plate is an upper adjusting plate that is slidably attached to the extension member to adjust a position of the upper sheave. 10. The system of claim 1 , further comprising: a controller coupled to control the motor assembly; and a movement sensor configured to sense the movement of the looped belt, the movement sensor in communication with the controller, wherein the controller controls the motor assembly based at least in part on signals from the movement sensor. 11. The system of claim 10 , further comprising: user inputs configured to provide control signals to the controller; and at least one output configured to indicate a current state of the motor assembly. 12. The system of claim 11 , wherein the user inputs are at least one selected from a group of inputs consisting of a pull-up force adjustment, a start/stop, an emergency stop and a retrieval. 13. The system of claim 1 , wherein the looped belt is one selected from a group consisting of an elongated member, looped cable and a looped rope. 14. A motorized climb assist system comprising: a looped belt; an attaching member coupled to the looped belt configured to attach a safety harness thereto; a motor assembly including, a motor having a drive shaft, the motor generating a lift force, and a drive sheave in frictional contact with the looped belt; a slip clutch selectively coupling a rotation of the drive sheave to a rotation of the drive shaft; and a fall arrest system integrated with the drive sheave, the fall arrest system configured to limit the looped belt movement as the result of a fall event, the fall arrest system including, a catch coupled to the motor assembly, the catch including at least one protrusion; and at least one pawl pivotally coupled to the drive sheave, the at least one pawl configured and arranged to engage the at least one protrusion of the catch to prevent the drive shaft from rotating thereby preventing the looped belt from moving during a fall event; an upper guide configured to be coupled proximate a second end of a ladder, the motor assembly and the upper guide configured to movably engage the looped belt therebetween, the upper guide including; an extension member having a first end configured to be coupled proximate the second end of the ladder; an upper mounting plate coupled proximate a second end of the extension member; and an upper sheave rotationally coupled to the upper mounting plate, the upper sheave configured to engage the looped belt. 15. The motorized climb assist system of claim 14 , wherein the looped belt is one selected from a group consisting of an elongated member, a looped cable and a looped rope. 16. The motorized climb assist system of claim 14 , wherein the drive sheave is configured to move the looped belt when in use for climb assist and to limit movement of the looped belt in response to a fall event via the fall arrest system. 17. The motorized climb assist system of claim 14 , further comprising: a retaining plate coupled to the motor; the catch coupled to the retaining plate; and at least one routing sheave rotationally coupled to the retaining plate, the at least one routing sheave configured to route the looped belt to the drive sheave. 18. The motorized climb assist system of claim 17 , further comprising: a tension adjusting assembly coupled proximate a first end of a ladder, the tension adjusting assembly further coupled to the motor assembly, the tension adjusting assembly configured to adjust a tension in the looped belt around the drive sheave. 19. The motorized climb assist system of claim 18 , wherein the tension adjusting assembly further comprises: a housing including an opening extending therethrough; an attaching member received in the housing, the retaining plate of the motor assembly coupled to the attaching member through the opening; a biasing member having a first