Device for chucking a tool or workpiece and method for operating such a chucking device

What is claimed is: 1. A chucking device, comprising: a rotationally-drivable spindle; chucking means for mechanical chucking or unchucking of a chucked object arranged on the spindle, the chucking means comprising a rotating body having gear teeth, each with a leading tooth flank and a trailing tooth flank, which allows the chucked object to be chucked or unchucked by relative rotational movement of the rotating body and the spindle; a drive gearwheel having gear teeth engagable with the gear teeth of the rotating body, each of the drive gearwheel gear teeth having a leading tooth flank and a trailing tooth flank, which are complementary to the gear teeth of the rotating body; a drive for rotationally driving the drive gearwheel, and a controller, wherein the gear teeth of the rotating body and the gear teeth of the drive gearwheel define a flank play so as to define a neutral angular position of the drive gearwheel with respect to the rotating body in which the leading tooth flank and the trailing tooth flank of the drive gearwheel and a corresponding leading tooth flank and trailing tooth flank of the rotating body are not in contact with each other; and the drive and the controller are configured and adapted to transfer the drive gearwheel relative to the rotating body into the neutral angular position and maintain said neutral angular position during rotation of the spindle and the chucked object. 2. The chucking device according to claim 1 , further comprising a first angle measuring sensor operatively connected to the spindle and configured and adapted to detect a position of the spindle, and a second angle measuring sensor operatively connected to the drive and configured and adapted to detect a position of the drive, wherein the controller is configured and adapted to read the first angle measuring sensor and the second angle measuring sensor. 3. The chucking device according to claim 1 , further comprising braking means for the spindle activatable to prevent a rotational movement of the spindle about a spindle axis such that the chucked object is chuckable or unchuckable by rotationally driving the drive gearwheel with the drive. 4. The chucking device according to claim 3 , further comprising a spindle drive adapted and configured to rotationally drive the spindle about the spindle axis. 5. The chucking device according to claim 4 , wherein the braking means includes the spindle drive, and the controller is configured and adapted to transfer the spindle drive into a braking mode. 6. The chucking device according to claim 3 , wherein the drive defines a rotational axis that extends substantially parallel to the spindle axis. 7. The chucking device according to claim 1 , wherein the controller is adapted and configured to determine power consumption of the drive and thereby determine one or more of successful chucking or chucking force during said chucking. 8. The chucking device according to claim 1 , wherein the drive wheel includes a spur gear, the rotating body includes a pinion, and the drive gearwheel together with the rotating body define a spur gearing. 9. A system, comprising: a chucking device, comprising a rotationally-drivable spindle; chucking means for mechanical chucking or unchucking of a chucked object arranged on the spindle, the chucking means comprising a rotating body having gear teeth, each with a leading tooth flank and a trailing tooth flank, which allows the chucked object to be chucked or unchucked by relative rotational movement of the rotating body with respect to the spindle; a drive gearwheel having gear teeth engagable with the gear teeth of the rotating body, each of the drive gearwheel gear teeth having a leading tooth flank and a trailing tooth flank, which are complementary to the gear teeth of the rotating body; and a drive for rotationally driving the drive gearwheel, wherein the gear teeth of the rotating body and the gear teeth of the drive gearwheel define a flank play so as to define a neutral angular position of the drive gearwheel with respect to the rotating body in which the leading tooth flank and the trailing tooth flank of the drive gearwheel and a corresponding leading tooth flank and trailing tooth flank of the rotating body are not in contact with each other; and a CNC controller configured to provide and maintain said neutral angular position and readjust the drive gearwheel as necessary to maintain said neutral angular position during rotation of the spindle and the chucked object. 10. The system according to claim 9 , wherein the system comprises a machine tool, a measuring machine, or a test stand.