Tool driving device and method of producing drilled product

What is claimed is: 1. A tool driving device comprising: a drill chuck for holding a drill; a motor configured to rotate the drill chuck; a casing housing the motor; and a vibrator configured to periodically reciprocate the drill chuck relatively to the casing in a tool axis direction during rotation of the drill chuck, wherein the vibrator is configured to distance the drill chuck from the casing at a first speed smaller than a second speed for bringing the drill chuck close to the casing, wherein the vibrator includes an amplitude adjuster configured to adjust amplitude of reciprocation of the drill chuck, wherein the amplitude adjuster allows adjusting the amplitude of the reciprocation to zero so that the drill chuck rotates without the reciprocation, and wherein the vibrator includes: balls rollingly disposed between the drill chuck and the casing, the balls being disposed away from each other at regular intervals on a same circle; and a sliding surface formed directly or indirectly on one of the drill chuck and the casing, the balls being contacted to the sliding surface while rolling during the rotation of the drill chuck, wherein the sliding surface has equally spaced level differences at which the balls fall simultaneously during normal rotation of the drill chuck, and the sliding surface changes smoothly from each level difference toward an adjacent level difference, no level differences at which the balls ascend during the normal rotation of the drill chuck being formed on the sliding surface by the smoothly changing sliding surface. 2. A method of producing a drilled product comprising: holding the drill by the tool driving device according to claim 1 ; and producing the drilled product by drilling an object by the drill rotated by the tool driving device. 3. The tool driving device according to claim 1 , wherein, relative to the tool axis direction, the vibrator is positioned between the drill chuck and the motor and the motor shifts together with the drill chuck along the tool axis direction at the first and second speeds. 4. The tool driving device according to claim 1 , wherein radially spaced end edging of the sliding surface converges as to define a V-groove. 5. The tool driving device according to claim 1 , wherein at a maximum depth of a drop slope of the sliding surface there is a concave depression configured for reception of a respective one of the balls. 6. The tool driving device according to claim 1 , wherein a return slope of the sliding surface rises to an upward end that is at a groove level in the sliding surface that is maintained at a constant level in extending circumferentially away from the upward end of the return slope until the next one of the equally spaced level differences. 7. The tool driving device according to claim 1 , wherein after the balls fall simultaneously during normal rotation of the drill chuck into the equally spaced level differences the balls rise, while running along guidance edging of the sliding surface that converges circumferentially, in a direction away from the end of respective downward slopes of the sliding surface. 8. The tool driving device according to claim 7 , wherein at a maximum depth of each of the downward slopes there is a concave depression configured for reception of a respective one of the balls. 9. The tool driving device according to claim 1 , wherein the vibrator further includes a ball retainer holding the balls rollingly, the ball retainer being rotatable around a tool axis, the balls rolling while rotating relatively to the drill chuck and the casing. 10. The tool driving device according to claim 1 , wherein the amplitude adjuster comprises a key and a key groove combination. 11. The tool driving device according to claim 9 , wherein, relative to the tool axis direction, the vibrator is positioned between the chuck and the motor and the motor shifts together with the drill chuck along the tool axis direction at the first and second speeds.