Angled impact wrench

What is claimed is: 1 . An angled impact wrench capable of driving a fastener onto a workpiece that extends completely through a portion of the impact wrench, the impact wrench comprising: a housing; a motor mounted in the housing, the motor having an output shaft rotatable about a first axis; and an impact drive unit mounted in the housing for rotation about a second axis that is nonparallel to the first axis, the impact drive unit having an energy storing condition and an energy release condition, the impact drive unit configured to repeatedly cycle between the energy storing condition and the energy release condition in response to a drive torque supplied by the motor via the output shaft, the impact drive unit comprising: an input shaft mounted in the housing for rotation about the second axis and operably connected to the output shaft to be rotationally driven about the second axis by the motor, the input shaft having: a through bore centered on the second axis to allow a workpiece to extend completely through the impact wrench along the second axis, and a cam feature on an outer surface of the input shaft; a rotatable hammer mounted in the housing for rotation about the second axis and having: a through bore centered on the second axis and surrounding a portion of the input shaft, a cam feature on an inner surface of the through bore of the rotatable hammer and operably connected to the cam feature on the input shaft to translate the rotatable hammer along the second axis relative to the input shaft over a limited linear distance in response to rotation of the input shaft with the impact drive unit in the energy storing condition, and at least one impact surface; a compression spring sandwiched between a surface on the input shaft and a surface on the rotatable hammer to store energy as the rotatable hammer translates over the limited linear distance with the impact drive unit in the energy storing condition and to transfer energy back to the rotatable hammer with the impact drive unit in the energy release condition; and a rotatable anvil mounted in the housing for rotation about the second axis and having a through bore centered on the second axis to allow a work piece to extend completely through the impact wrench along the second axis, the through bore of the rotatable anvil including a drive feature to transfer a drive torque to a driven component received in the through bore of the rotatable anvil, and at least one impact surface engageable with the at least one impact surface of the rotatable hammer to receive an impact force from the rotatable hammer with the impact device in the energy release condition. 2 . The angled impact wrench of claim 1 further comprising a gear train operably connecting the output shaft of the motor to the input shaft of the impact drive unit. 3 . The angled impact wrench of claim 2 wherein the gear train comprises: a first bevel gear mounted in the housing for rotation about the first axis and operably connected to the output shaft to be rotationally driven by the motor; and a second bevel gear mounted in the housing for rotation about the second axis, the second bevel gear meshed with the first bevel gear to be rotationally driven by the motor, the second bevel gear surrounding a portion of the input shaft. 4 . The angled impact wrench of claim 3 wherein the gear train further comprises a planetary gear train comprising a sun gear driven by the output shaft of the motor and a planet gear carrier driving the first bevel gear, the sun gear and the planet gear carrier mounted for rotation about the first axis. 5 . The angled impact wrench of claim 1 wherein: the at least one impact surface of the rotatable hammer comprises a first pair of circumferentially spaced surfaces, and the at least one impact surface of the rotatable hammer comprises a second pair of circumferentially spaced surfaces. 6 . The angled impact wrench of claim 1 wherein: the cam feature on the input shaft is formed in a radially outwardly facing cylindrical surface of the input shaft; and the cam feature on the rotatable anvil is formed in a radially inwardly facing cylindrical surface of the anvil. 7 . The angled impact wrench of claim 6 wherein the cam features are ball ramps connected by at least one ball bearing riding in the ball ramps. 8 . The angled impact wrench of claim 1 wherein the through bore of the rotatable hammer comprises a radially inwardly facing cylindrical surface that is sized for guided translation over a radially outwardly facing cylindrical surface on the input shaft. 9 . The angled impact wrench of claim 1 wherein the through bore in the input shaft comprises a radially inwardly facing cylindrical bearing surface that receives a radially outwardly facing cylindrical journal surface on the rotatable anvil to form a rotatable bearing support for the input shaft. 10 . The angled impact wrench of claim 1 further comprising a driven component in the form of a fastener drive socket engaged in the through bore of the rotatable anvil. 11 . The angled impact wrench of claim 1 wherein the motor is an electric motor. 12 . The angled impact wrench of claim 11 further comprising a battery releasably connected to the housing and operably connected to the electric motor to supply electric power to the electric motor, and wherein the first axis is perpendicular to the second axis. 13 . An angled impact wrench capable of driving a fastener onto a workpiece that extends completely through a portion of the impact wrench, the impact wrench comprising: a housing; a motor mounted in the housing, the motor having an output shaft rotatable about a first axis; and an impact drive unit mounted in the housing for rotation about a second axis that is nonparallel to the first axis, the impact drive unit having an energy storing condition and an energy release condition, the impact drive unit configured to repeatedly cycle between the energy storing condition and the energy release condition in response to a drive torque supplied by the motor via the output shaft, the impact drive unit having a through passage extending along the second axis to allow a workpiece to extend completely through the impact wrench. 14 . The angled impact wrench of claim 13 further comprising a gear train mounted in the housing to transfer a drive torque from the output shaft of the motor to the impact drive unit. 15 . The angled impact wrench of claim 14 wherein the gear train comprises: a first bevel gear mounted in the housing for rotation about the first axis and operably connected to the output shaft to be rotationally driven by the motor; and a second bevel gear mounted in the housing for rotation about the second axis, the second bevel gear meshed with the first bevel gear to rotationally driven by the motor, the second bevel gear surrounding a portion of the impact drive unit. 16 . The angled impact wrench of claim 15 wherein the gear train further comprises a planetary gear train comprising a sun gear driven by the output shaft of the motor and a planet gear carrier driving the first bevel gear, the sun gear and the planet gear carrier mounted for rotation about the first axis. 17 . The angled impact wrench of claim 13 wherein the impact drive unit comprises a rotatable hammer and a rotatable anvil mounted in the housing for rotation about the second axis, the rotatable hammer impacting the rotatable anvil with the impact drive unit in the energy release condition to create a drive torque at an output