Impact tool with adjustable clutch

What is claimed is: 1. An impact tool comprising: a housing; a motor supported in the housing; an output shaft rotatably supported in the housing about a central axis; an impact mechanism coupled between the motor and the output shaft and operable to impart a striking rotational force to the output shaft; and a clutch mechanism coupled between the impact mechanism and the output shaft; wherein the clutch mechanism is operable in a first mode, in which torque from the motor is transferred to the output shaft through the impact mechanism, and a second mode, in which torque from the motor is diverted from the output shaft toward a portion of the impact mechanism at a predetermined torque setting of the clutch mechanism. 2. The impact tool of claim 1 , wherein the impact mechanism includes an anvil rotatably supported in the housing, and a hammer coupled to the motor to receive torque from the motor and impart the striking rotational force to the anvil. 3. The impact tool of claim 2 , wherein the clutch mechanism includes a first plate coupled for co-rotation with the output shaft, a second plate coupled for co-rotation with the anvil, and a plurality of engagement members between the first and second plates through which torque and the striking rotational force are transferred when the clutch mechanism is operable in the first mode. 4. The impact tool of claim 3 , wherein the second plate includes a plurality of axially extending protrusions spaced about the central axis, and wherein the engagement members are wedged against the protrusions when the clutch mechanism is operable in the first mode. 5. The impact tool of claim 4 , wherein the engagement members are configured to ride over the protrusions in response to rotation of the second plate and the anvil relative to the first plate when the clutch mechanism is operable in the second mode. 6. The impact tool of claim 3 , wherein the first plate includes a plurality of apertures, and wherein the engagement members are at least partially positioned within the respective apertures. 7. The impact tool of claim 3 , wherein the clutch mechanism further includes a spring configured to impart a biasing force on the engagement members, and a washer positioned between the engagement members and the spring. 8. The impact tool of claim 7 , wherein the clutch mechanism further includes a thrust bearing assembly positioned between the engagement members and the washer, and wherein the thrust bearing assembly is operable to permit relative rotation between the first plate and the washer. 9. The impact tool of claim 8 , wherein the housing includes a plurality of apertures, wherein the clutch mechanism includes a corresponding plurality of cylindrical pins received within the apertures, and wherein the pins are positioned between the thrust bearing assembly and the washer. 10. The impact tool of claim 7 , further comprising a clutch mechanism adjustment assembly including an adjustment ring rotatable in a first direction in which the spring is compressed to increase the biasing force imparted on the engagement members, and in a second direction in which the spring is permitted to expand to decrease the biasing force imparted on the engagement members. 11. The impact tool of claim 7 , further comprising a mode selection mechanism including a sleeve coupled to a nose portion of the housing and having a slot defined therein, wherein the washer is rotatable between a first position in which a tab on the washer is inhibited from being received within the slot, and a second position in which the tab is receivable within the slot. 12. The impact tool of claim 11 , wherein the mode selection mechanism includes a mode selection ring coupled for co-rotation with the washer. 13. The impact tool of claim 11 , wherein the clutch mechanism is operable only in the first mode when the washer is rotated to the first position, and wherein the clutch mechanism is operable in the first and second modes when the washer is rotated to the second position. 14. The impact tool of claim 2 , wherein the impact mechanism further includes a rotating shaft that receives torque from the motor, and an engagement member positioned between the hammer and the rotating shaft for transferring torque from the rotating shaft to the hammer. 15. The impact tool of claim 14 , wherein the rotating shaft includes a first cam groove in which the engagement member is at least partially positioned, wherein the hammer includes a second cam groove in which the engagement member is at least partially positioned, and wherein the engagement member imparts axial displacement to the hammer in response to relative rotation between the rotating shaft and the hammer. 16. The impact tool of claim 14 , further comprising a transmission positioned between the motor and the rotating shaft. 17. The impact tool of claim 16 , wherein the transmission includes at least one planetary stage having an output carrier, wherein the impact tool further includes a projection coupled for co-rotation with one of the rotating shaft and the output carrier, and an aperture disposed in the other of the rotating shaft and the output carrier in which the projection is received. 18. The impact tool of claim 17 , wherein the projection and the aperture have corresponding non-circular cross-sectional shapes to couple the output carrier and the rotating shaft for co-rotation. 19. The impact tool of claim 1 , wherein the output shaft includes a hexagonal receptacle in which a tool bit is removably received. 20. The impact tool of claim 1 , further comprising a battery electrically connected to the motor for powering the motor.