Disc brake with adjustment mechanism having a thread device

The invention claimed is: 1. A disk brake, comprising: a brake disk having a rotation axis, a brake caliper, at least one application device lying within the brake caliper on one side of the brake disk, an axially movable device configured to move a brake pad axially toward the brake disk by way of an actuating spindle when the brake is actuated, wherein the actuating spindle has an external thread configured to engage a threaded bore in the movable device, and an adjustment mechanism having a first thread device, the adjustment mechanism being configured to rotate, in each of an adjusting direction and a release direction opposite the adjusting direction, about a rotation axis parallel to the rotation axis of the brake disk, wherein the adjustment mechanism is further configured to, during rotation in the adjusting direction, rotate the actuating spindle in the adjusting direction thereby axially moving the actuating spindle relative to the movable device by forming, with the actuating spindle, a rotational coupling acting in the adjusting direction, wherein the adjustment mechanism is even further configured to, during rotation in the release direction, rotate relative to the actuating spindle, and wherein, during rotation in the release direction, the first thread device of the adjustment mechanism is configured to mesh with the external thread of the actuating spindle that is configured to engage the threaded bore in the movable device, wherein the first thread device of the adjustment mechanism is a wrap spring having a same pitch as the external thread of the actuating spindle, wherein the wrap spring is configured to rest in a spiral groove of a guide sleeve of the adjustment mechanism, and wherein the adjustment mechanism includes a grooved ring mounted rotatably on the guide sleeve. 2. The disk brake as claimed in claim 1 , wherein two or more turns of the wrap spring are configured to mesh with the external thread of the actuating spindle. 3. The disk brake as claimed in claim 1 , wherein an end section of the wrap spring is configured to be held on the guide sleeve. 4. The disk brake as claimed in claim 3 , wherein the spiral groove is configured to mesh with the external thread of the actuating spindle. 5. The disk brake as claimed in claim 1 , wherein the adjustment mechanism is configured to be moved axially by at least a distance which corresponds to a maximum adjustment distance per adjustment step. 6. The disk brake as claimed in claim 1 , further comprising a braking device which is configured to counteract rotation of the actuating spindle. 7. The disk brake as claimed in claim 1 , wherein a width of the groove corresponds to a desired release clearance. 8. The disk brake as claimed in claim 1 , wherein the adjustment mechanism has an input region and an output region as well as a torque-dependent clutch situated between the two regions. 9. The disk brake as claimed in claim 8 , wherein the torque-dependent clutch has a torsion spring. 10. The disk brake as claimed in claim 9 , wherein the torsion spring is preloaded. 11. The disk brake as claimed in claim 9 , wherein the torsion spring is configured to store energy in a braking overstroke and hence to adjust the actuating spindle in a release stroke for purposes of brake adjustment. 12. The disk brake as claimed in claim 1 , wherein the grooved ring includes an axial groove configured to be engaged by a driver pin held on a braking shaft so as to activate the adjustment mechanism. 13. The disk brake as claimed in claim 1 , wherein the adjustment mechanism includes a torsion spring situated between a driver disk of the adjustment mechanism and the grooved ring, wherein the torsion spring is a torque-dependent clutch that is configured to store energy in a braking overstroke and to adjust the actuating spindle in a release stroke. 14. The disk brake as claimed in claim 13 , wherein the driver disk includes latching projections configured to engage with circumferential profiled openings formed on the guide sleeve so as to secure the driver disk on the guide sleeve in a fixed manner. 15. A disk brake, comprising: a brake disk having a rotation axis, a brake caliper, at least one application device lying within the brake caliper on one side of the brake disk, an axially movable device configured to move a brake pad axially toward the brake disk by way of an actuating spindle when the brake is actuated, wherein the actuating spindle has an external thread configured to engage a threaded bore in the movable device, and an adjustment mechanism having a first thread device, the adjustment mechanism being configured to rotate, in each of an adjusting direction and a release direction opposite the adjusting direction, about a rotation axis parallel to the rotation axis of the brake disk, wherein the adjustment mechanism is further configured to, during rotation in the adjusting direction, rotate the actuating spindle in the adjusting direction thereby axially moving the actuating spindle relative to the movable device by forming, with the actuating spindle, a rotational coupling acting in the adjusting direction, wherein the adjustment mechanism is even further configured to, during rotation in the release direction, rotate relative to the actuating spindle, and wherein, during rotation in the release direction, the first thread device of the adjustment mechanism is configured to mesh with the external thread of the actuating spindle that is configured to engage the threaded bore in the movable device, and wherein the adjustment mechanism and the axially movable device are configured to remain, except during any braking process and subsequent adjustment step, in a fixed position relative to one another over an entire range of wear-compensating adjustment travel of the axially movable device relative to the actuating spindle. 16. A disk brake, comprising: a brake disk having a rotation axis, a brake caliper, at least one application device lying within the brake caliper on one side of the brake disk, an axially movable device configured to move a brake pad axially toward the brake disk by way of an actuating spindle when the brake is actuated, wherein the actuating spindle has an external thread configured to engage a threaded bore in the movable device, and an adjustment mechanism having a first thread device, the adjustment mechanism being configured to rotate, in each of an adjusting direction and a release direction opposite the adjusting direction, about a rotation axis parallel to the rotation axis of the brake disk, wherein the adjustment mechanism is further configured to, during rotation in the adjusting direction, rotate the actuating spindle in the adjusting direction thereby axially moving the actuating spindle relative to the movable device by forming, with the actuating spindle, a rotational coupling acting in the adjusting direction, wherein the adjustment mechanism is even further configured to, during rotation in the release direction, rotate relative to the actuating spindle, wherein, during rotation in the release direction, the first thread device of the adjustment mechanism is configured to mesh with the external thread of the actuating spindle that is configured to engage the threaded bore in the movable device, wherein the adjustment mechanism includes a grooved ring having an axial groove configured to be engaged by a driver pin held on a braking shaft so as to activate the adjustment mechanism, and wherein the braking shaft is configured to be moved, after a braking process, by compres