Machine tool braking apparatus

The invention claimed is: 1. A power-tool braking device of a portable power tool, comprising: a housing; a drive unit supported by the housing; at least one output unit including at least one output element configured to be rotationally driven relative to the housing by the drive unit about a rotation axis; at least one mechanical braking unit including at least one movably mounted braking element configured to move to a release position that enables rotation of the output element and to move to a braking position for braking rotation of the output element wherein the braking unit has at least one actuating element configured (i) to engage the at least one braking element to secure the at least one braking element in the release position in response to the drive unit rotationally driving the at least one output element, and (ii) to release the at least one braking element in response to the drive unit ceasing to rotationally drive the at least one output element, such that the at least one braking element is movable to the braking position. 2. The power-tool braking device as claimed in claim 1 , wherein, to engage the braking element, the actuating element acts in combination, in a form-fitting manner, with a release element of the braking element. 3. The power-tool braking device as claimed in claim 1 , wherein the actuating element is connected to the output element in a rotationally fixed manner. 4. The power-tool braking device as claimed in claim 1 , wherein: the braking unit has at least one driver element on which the braking element is pivotally mounted, and the at least one driver element is separate from the at least one output element. 5. The power-tool braking device as claimed in claim 1 , wherein: the braking unit has at least one counter-braking element that is rotationally fixed in position relative to the housing, the counter-braking element configured to at least partially surround the braking element along a circumferential direction, as viewed in a plane running perpendicularly in relation to the rotation axis, and the braking unit prevents the at least one braking element from braking the rotation of the output element by maintaining the at least one braking element in a position that is radially spaced apart from the at least one counter-braking element. 6. The power-tool braking device as claimed in claim 5 , wherein the counter-braking element is configured as a brake drum. 7. The power-tool braking device as claimed in claim 1 , wherein the braking unit comprises at least one cam mechanism, the cam mechanism having at least one cam member configured to act in combination with the actuating element to move the braking element toward the rotation axis. 8. The power-tool braking device as claimed in claim 7 , wherein the cam member is disposed on the braking element. 9. The power-tool braking device as claimed in claim 1 , wherein the output element is configured as a ring gear. 10. The power-tool braking device as claimed in claim 1 , wherein the power-tool braking device is configured as a hand-held power tool braking device. 11. The power-tool braking device as claimed in claim 1 , wherein in response to the drive unit ceasing to drive the at least one output element, inertia of the at least one mechanical braking unit causes the at least one braking element to move to a position configured to brake the rotation of the at least one output element. 12. A power-tool braking device of a portable power tool, comprising: an output unit including an output element, the output element configured to be driven rotationally by a drive unit of the power tool, such that the output element defines a rotation axis; at least one movably mounted braking element that is rotatable about the rotation axis relative to the output unit and that is configured to brake rotation of the output element, the at least one braking element configured, at least in one operating state, to move at least substantially perpendicularly in relation to the rotation axis; and a mounting plate connected to the output element in a rotationally fixed manner and including at least one actuating element, when the output element is driven rotationally by the drive unit, the at least one actuating element moves the at least one braking element perpendicularly toward the rotation axis to prevent the at least one braking element from braking the rotation of the output unit. 13. The power-tool braking device as claimed in claim 12 , wherein, in the at least in one operating state, the at least one actuating element acts in combination, in a form-fitting manner, with a release element of the at least one braking element to move the at least one braking element perpendicularly toward the rotation axis. 14. The power-tool braking device as claimed in claim 12 , wherein the at least one actuating element is connected to the output element in a rotationally fixed manner. 15. The power-tool braking device as claimed in claim 12 , wherein the braking unit has at least one driver element on which the at least one braking element is pivotally mounted. 16. The power-tool braking device as claimed in claim 12 , wherein: the braking unit has at least one counter-braking element, which at least partially surrounds the braking element along a circumferential direction, as viewed in a plane running perpendicularly in relation to the rotation axis of the output element, and the braking unit prevents the at least one braking element from braking the rotation of the output element by maintaining the at least one braking element in a position that is radially spaced apart from the at least one counter-braking element. 17. The power-tool braking device as claimed in claim 16 , wherein the counter-braking element is configured as a brake drum. 18. The power-tool braking device as claimed in claim 12 , wherein the braking unit comprises at least one cam mechanism, the cam mechanism having at least one cam member configured to act in combination with the at least one actuating element to move the at least one braking element.