Fastener driving tool trigger assembly

What is claimed is: 1. A fastener driving tool trigger assembly comprising: a rotary damper coupled to a tool housing, the rotary damper having a damper shaft; a driven gear coupled to the damper shaft to transfer rotation of the driven gear to the damper shaft in a first direction; a drive gear coupled to the tool housing and being movable between a timed-out position and a wind-up position and biased toward the timed-out position; the drive gear being operably coupled to the driven gear to rotate the driven gear in the first direction as the drive gear moves away from the wind-up position toward the timed-out position and to rotate the driven gear in a second direction opposite the first direction as the drive gear moves away from the timed-out position toward the wind-up position; a trigger pivotably coupled to the tool housing and movable between a trigger home position and a trigger firing position; an actuator pivotably coupled to the trigger and movable between an actuator home position and an actuator firing position; a wind-up arm coupled to the trigger and engageable with the drive gear to move the drive gear away from the timed-out position to the wind-up position in response to the trigger moving away from the trigger home position to the trigger firing position; a contact trip coupled to the tool housing and movable between a trip home position and a trip firing position and, with the drive gear positioned between the timed-out position and the wind-up position, the contact trip being engageable with the drive gear to move the drive gear into the wind-up position as the contact trip moves from the trip home position to the trip firing position and, with the trigger positioned in the trigger firing position, the contact trip being engageable with the actuator to move the actuator into the actuator firing position as the contact trip moves from the trip home position to the trip firing position and, with the drive gear positioned in the timed-out position, the contact trip being engageable with the drive gear, with the drive gear in an orientation which prevents the contact trip from rotating the drive gear into the wind-up position and prevents the contact trip from moving into the trip firing position. 2. The fastener driving tool trigger assembly of claim 1 , further comprising a one-way clutch coupled to the damper shaft between the damper shaft and the driven gear to transfer rotation of the driven gear to the damper shaft in the first direction, but not in the second direction. 3. The fastener driving tool trigger assembly of claim 2 , wherein the driven gear is mounted on the damper shaft with the one-way clutch mounted on the damper shaft between the driven gear and the damper shaft. 4. The fastener driving tool trigger assembly of claim 1 , wherein the contact trip has a front arm and a rear arm moveably coupled together at a coupling including a biasing member, the front arm of the contact trip being selectively engageable with a workpiece, and the rear arm of the contact trip being selectively engageable with the drive gear, and wherein the biasing member allowing the front arm to continue moving away from the trigger home position while movement of the rear arm away from the trigger home position is arrested by engagement of the drive gear with the drive gear positioned in the timed-out position in an orientation which prevents the rear arm from rotating the drive gear into the wind-up position and prevents the rear arm from moving into the trip firing position. 5. The fastener driving tool trigger assembly of claim 1 , wherein the wind-up arm includes a hook that engages a wind-up protrusion of the drive gear to move the drive gear from the timed-out position to the wind-up position in response to the trigger moving from the trigger home position to the trigger firing position. 6. The fastener driving tool trigger assembly of claim 5 , wherein the wind-up arm is pivotably coupled to the trigger and, with the trigger in the trigger firing position, engagement of the wind-up arm with the tool housing rotates the wind-up arm to move the hook away from the wind-up protrusion of the drive gear and release the drive gear. 7. The fastener driving tool trigger assembly of claim 6 , wherein the tool housing includes an internal protrusion that rotates the wind-up arm to move the hook away from the wind-up protrusion of the drive gear and release the drive gear. 8. The fastener driving tool trigger assembly of claim 1 , wherein, with the drive gear positioned in the timed-out position, cooperating engagement surfaces of the drive gear and the contact trip are oriented normal to a direction of movement of the contact trip between the trip home position and the trip firing position. 9. The fastener driving tool trigger assembly of claim 1 , wherein cooperating engagement surfaces of the drive gear and the contact trip include a protrusion and a recess, and with the drive gear positioned in the timed-out position and the cooperating engagement surfaces of the drive gear and the contact trip cooperatively engage, the protrusion is received in the recess to limit movement of the trigger from the trigger home position to the trigger firing position. 10. A fastener driving tool trigger assembly comprising: a rotary damper coupled to a tool housing, the rotary damper having a damper shaft; a driven gear coupled to the damper shaft to transfer rotation of the driven gear to the damper shaft in a first direction; a drive gear coupled to the tool housing and movable between a timed-out position and a wind-up position and being biased toward the timed-out position; the drive gear being operably coupled to the driven gear to rotate the driven gear in the first direction as the drive gear moves away from the wind-up position toward the timed-out position and to rotate the driven gear in a second direction opposite the first direction as the drive gear moves away from the timed-out position toward the wind-up position; a trigger pivotably coupled to the tool housing and movable between a trigger home position and a trigger firing position; an actuator pivotably coupled to the trigger and movable between an actuator home position and an actuator firing position; a mode selector coupled to the tool housing and movable between a bump mode position and a sequential mode position and, with the mode selector in the sequential mode position, the mode selector being operably coupled to the drive gear to hold the drive gear in a timer lock-out position; a wind-up arm coupled to the trigger and, with the mode selector in the bump mode position, the wind-up arm being engageable with the drive gear to move the drive gear from the timed-out position to the wind-up position in response to the trigger moving from the trigger home position to the trigger firing position; a contact trip coupled to the tool housing and movable between a trip home position and a trip firing position and, with the mode selector in the bump mode position and the drive gear positioned between the timed-out position and the wind-up position, the contact trip being engageable with the drive gear to move the drive gear into the wind-up position as the contact trip moves from the trip home position to the trip firing position and, with the mode selector in the bump mode position and the trigger positioned in the trigger firing position, the contact trip being engageable with the actuator to move the actuator into the actuator firing position as the contact trip moves from the trip home position to the trip firing position, and with the mode selector in the bump mode position and the drive gear positioned in the timed-out position, the contact trip being engageable