Drilling apparatus

The invention claimed is: 1. A drilling apparatus comprising: a drilling tool holder for holding a drill rod; and a gearbox comprising: a gearbox housing having gear elements rotatably mounted therein; and a shock absorber for absorbing at least one impact on at least one of the gear elements; wherein the shock absorber is configured to: plastically deform upon the axial impact exceeding a threshold value; and elastically deform upon the axial impact not exceeding the threshold value; wherein the shock absorber comprises a damper selected from the group consisting of a flat damper disc and a flat damper plate; and wherein the damper has at least one deformable edge selected from the group consisting of an inner edge, an outer edge, and a combination thereof. 2. The drilling apparatus according to claim 1 further comprising a rotary drive for rotatably driving a drill rod; wherein the shock absorber is further configured to: absorb, via elastic deformation, the at least one impact in the direction of an axis of rotation of the at least one of the gear elements to which the shock absorber is assigned; and then plastically deform if the axial impact exceeds the threshold value. 3. The drilling apparatus according to claim 1 , wherein the shock absorber in an un-deformed initial state is spaced from the at least one of the gear elements to be damped. 4. The drilling apparatus according to the claim 1 , wherein the damper is formed from steel; and wherein the steel damper has an outer diameter at least five times larger than a thickness of the steel damper. 5. The drilling apparatus according to claim 1 , wherein the shock absorber is disposed coaxially with the at least one of the gear elements to be damped. 6. The drilling apparatus according to claim 1 , wherein the shock absorber supports a gear shaft in regard to the gearbox housing during the at least one impact. 7. The drilling apparatus according to claim 1 , wherein the shock absorber is disposed between a transmission input shaft and a motor drive shaft fixedly connected thereto. 8. The drilling apparatus according to claim 7 , wherein the shock absorber is fastened to the gearbox housing. 9. The drilling apparatus according to claim 7 , wherein the shock absorber further supports impact strains on one or more of: the transmission input shaft with respect to the gearbox housing; the drive motor shaft with respect to the gearbox housing; the transmission input shaft with respect to a motor housing; and the drive motor shaft with respect to the motor housing. 10. The drilling apparatus according to claim 1 further comprising the drill rod; wherein the drill rod is in the form of a telescopic Kelly bar having a plurality of drill rod parts which can be telescoped into and extended from one another. 11. The drilling apparatus according to claim 1 , wherein the shock absorber is associated with either: a gear element that is not axially fixed; or a gear element that is fixed without clearance; and wherein the shock absorber limits axial movements of the gear element along its axis of rotation. 12. The drilling apparatus according to claim 1 , wherein the drilling apparatus is a Kelly drilling rig; and wherein the drill rod is a Kelly bar. 13. The drilling apparatus according to claim 1 , wherein the shock absorber extends substantially transversely to an axis of rotation of the at least one of the gear elements to be damped. 14. A drilling apparatus comprising: a drilling tool holder for holding a drill rod; and a gearbox comprising: a gearbox housing having gear elements rotatably mounted therein; and a shock absorber for absorbing at least one impact on at least one of the gear elements; wherein the shock absorber is fastened to a planet carrier and is disposed between a gear shaft element and a housing element so that the shock absorber is configured to intercept a gear shaft in the gearbox housing in the event of an axial impact; and wherein the shock absorber is further configured to: plastically deform upon the axial impact exceeding a threshold value; and elastically deform upon the axial impact not exceeding the threshold value. 15. The drilling apparatus according to claim 14 , wherein in an un-deformed initial state the shock absorber is spaced from both the gear shaft and the gearbox housing. 16. The drilling apparatus according to claim 14 , wherein the gear shaft element is selected from the group consisting of a gear shaft shoulder and a gear shaft end face; and wherein the housing element is selected from the group consisting of a housing shoulder and a housing end face. 17. A drilling apparatus comprising: a drill rod; a drilling tool holder for holding the drill rod; a drill carriage; and a gearbox comprising: a gearbox housing having gear elements rotatably mounted therein; and a shock absorber for absorbing at least one impact on at least one of the gear elements; wherein the shock absorber is configured to: plastically deform upon the axial impact exceeding a threshold value; and elastically deform upon the axial impact not exceeding the threshold value; wherein the gearbox is disposed on the drill carriage which is mounted in a longitudinally displaceable manner on a drill guide; and wherein the drill carriage is driven in the longitudinally displaceable manner by an axial feed drive. 18. A drilling apparatus comprising: a drilling tool holder for holding a drill rod; and a gearbox comprising: gear elements rotatably mounted therein; and a shock absorber having a gear engagement portion and a housing engagement portion; wherein the shock absorber is configured to: plastically deform upon an impact in the direction of an axis of rotation of an associated one of the rotatably mounted gear elements; elastically deform upon an axial impact to an associated gear element not exceeding a threshold value; rotate freely relative to the associated gear element and a housing in an initial state of the gearbox without axial impact; and transmit at least a portion of the axial impact to the housing in an impact state of the gearbox with the axial impact; wherein the housing is selected from the group consisting of a gearbox housing and a motor housing; and wherein the shock absorber transmits at least a portion of the axial impact to the housing via axial abutment of the: gear engagement portion of the shock absorber against the associated gear element; and housing engagement portion of the shock absorber against a portion of the housing. 19. A drilling apparatus comprising: a drilling tool holder for holding a drill rod; and a gearbox comprising: gear elements rotatably mounted therein; and a damper for absorbing an axial impact on an associated one of the gear elements, wherein the damper has a first side and an opposite second side, and wherein the damper has an outer edge at the first side and an inner edge at the opposite second side; wherein the damper is configured to: plastically deform upon the axial impact to the associated gear element exceeding a threshold value; and elastically deform upon the axial impact to the associated gear element not exceeding the threshold value; wherein a housing shoulder is a portion of a housing selected from the group consisting of a gearbox housing and a motor housing; wherein a gear shoulder is a portion of the associated gear element; wherein in an initial state of the gearbox without axial impact, the damper is: