Drill

The invention claimed is: 1. A drill comprising: a housing; a motor mounted in the housing having a drive spindle; an output spindle capable of being rotationally driven by the drive spindle via a torque clutch, the output spindle having an impact surface and a central axis, wherein the output spindle is hollow; a tangential impact mechanism for superimposing tangential impacts onto the output spindle when activated, the tangential impact mechanism being activated when the torque clutch slips, the tangential impact mechanism comprising: a sleeve rotatably mounted on the output spindle which is capable of being rotationally driven by the drive spindle; and an anvil rotatably mounted onto the output spindle and which is connected to the sleeve so that relative rotation of the sleeve and spindle results in the anvil repetitively striking the at least one impact surface; a planetary gear system for rotationally driving the output spindle and the sleeve, the planetary gear system comprising: a ring gear mounted on the output spindle so that rotation of the ring gear results in rotation of the output spindle, a sun gear mounted on the sleeve so that rotation of the sun gear results in rotation of the sleeve, and at least one planetary gear mounted on a carrier and is drivingly connected between the ring gear and sun gear; and a hammer mechanism for generating axial impacts which can be imposed on a cutting tool, the hammer mechanism comprising: a piston capable of being reciprocatingly driven by the drive spindle via a transmission mechanism; a ram reciprocatingly driven by the reciprocating piston via an air spring; and a beat piece for repetitively striking the ram; wherein the piston, ram and beat piece are slideably mounted within the output spindle, and wherein the drive spindle is drivingly connected to the carrier such that rotation of the drive spindle results in the rotation of the at least one planetary gear around the central axis of the output spindle. 2. The drill in accordance with claim 1 wherein the ring gear is further connected to the sun gear via the torque clutch. 3. The drill in accordance with claim 2 wherein the ring gear and the sun gear are rotationally connected to each other when the torque clutch is not slipping, and, when the torque clutch is slipping, the ring gear and sun gear can rotate relative to each other. 4. The drill in accordance with claim 2 wherein the ring gear and the sun gear are co-axial. 5. The drill in accordance with claim 1 wherein the anvil is rotatably mounted on the sleeve on the spindle. 6. The drill in accordance with claim 1 wherein the anvil can axially slide on the spindle. 7. The drill in accordance with claim 1 wherein the sleeve is connected to the anvil via a cam mechanism. 8. The drill in accordance with claim 7 wherein the cam mechanism comprises: a groove formed on one of the sleeve and the anvil, the groove facing the other of the sleeve and the anvil; and a ball bearing located within the groove, the ball bearing being in driving engagement with the other of the sleeve and anvil. 9. The drill in accordance with claim 7 wherein the anvil is biased by a spring towards engagement with the impact surface, wherein the impact surface prevents rotation of the anvil on the output spindle when the anvil is in engagement with the impact surface. 10. The drill in accordance with claim 9 wherein rotation of the sleeve on the output spindle results in movement of the anvil against a biasing force of the spring away from the impact surface, the movement of the anvil relative to the sleeve being controlled by the cam mechanism. 11. The drill in accordance with claim 10 wherein, upon disengagement of the anvil from the impact surface, the spring drives the anvil back into engagement with the impact surface to impart a tangential impact onto the output spindle, the movement of the anvil relative to the sleeve being controlled by the cam mechanism. 12. The drill in accordance with claim 1 wherein the drive spindle is capable of rotationally driving the planetary gear system in unison with no relative movement of the ring gear, the sun gear and the planetary gear when the torque clutch is not slipping. 13. A drill comprising: a housing; a motor mounted in the housing having a drive spindle; an output spindle capable of being rotationally driven by the drive spindle via a torque clutch, the output spindle having an impact surface and a central axis; a tangential impact mechanism for superimposing tangential impacts onto the output spindle when activated, the tangential impact mechanism being activated when the torque clutch slips, the tangential impact mechanism comprising: a sleeve rotatably mounted on the output spindle which is capable of being rotationally driven by the drive spindle; and an anvil rotatably mounted onto the output spindle and which is connected to the sleeve so that relative rotation of the sleeve and spindle results in the anvil repetitively striking the at least one impact surface; and a planetary gear system for rotationally driving the output spindle and the sleeve, the planetary gear system comprising: a ring gear mounted on the output spindle so that rotation of the ring gear results in rotation of the output spindle, a sun gear mounted on the sleeve so that rotation of the sun gear results in rotation of the sleeve, and at least one planetary gear mounted on a carrier and is drivingly connected between the ring gear and sun gear; wherein the drive spindle is drivingly connected to the carrier such that rotation of the drive spindle results in the rotation of the at least one planetary gear around the central axis of the output spindle, and wherein the torque clutch comprises: a ball bearing cage non-rotatably fixed onto one of the sun gear and ring gear; a plurality of ball bearings mounted within the ball bearing cage and whose position are fixed within the ball bearing cage; a path being formed on the other of the sun gear and ring gear along which the ball bearings are capable of travelling, the path having indentations which correspond to the number and positions of the ball bearings; and biasing means for urging the ball bearings into the indentations when the ball bearings are aligned with the indentations. 14. The drill in accordance with claim 13 wherein the ring gear is further connected to the sun gear via the torque clutch. 15. The drill in accordance with claim 14 wherein the ring gear and the sun gear are rotationally connected to each other when the torque clutch is not slipping, and, when the torque clutch is slipping, the ring gear and sun gear can rotate relative to each other. 16. The drill in accordance with claim 14 wherein the ring gear and the sun gear are co-axial. 17. The drill in accordance with claim 13 wherein the anvil is rotatably mounted on the sleeve on the spindle. 18. The drill in accordance with claim 13 wherein the anvil can axially slide on the spindle. 19. The drill in accordance with claim 13 wherein the sleeve is connected to the anvil via a cam mechanism.