초록 ▼

A level-controllable crawler crane includes two crawler supports with rotating crawlers, which crawler supports are connected by a transversal bridge. A superstructure of the crawler crane includes a crane jib pivotable about a vertical axis and connected to the transversal bridge. A pivotable artic

A level-controllable crawler crane includes two crawler supports with rotating crawlers, which crawler supports are connected by a transversal bridge. A superstructure of the crawler crane includes a crane jib pivotable about a vertical axis and connected to the transversal bridge. A pivotable articulation connects the transversal bridge to the crane superstructure. At least one of the crawler supports is connected to the transversal bridge by a double link having a lower and an upper link. The lower link is articulated on the crawler support by a crawler support lower pivotable axis and on the transversal bridge by a transversal bridge lower pivotable axis. The upper link is articulated on the crawler support by a crawler support upper pivotable axis and on the transversal bridge by a transversal bridge upper pivotable axis. A drive pivots the links about the pivotable axis associated therewith.

대표청구항 ▼

1. A crawler crane comprising: two crawler supports having rotating crawlers,at least one transversal bridge connecting the two crawler supports,a crane structure having at least one crane boom connected to the transversal bridge,a pivot articulation that pivotally connects the transversal bridge to

1. A crawler crane comprising: two crawler supports having rotating crawlers,at least one transversal bridge connecting the two crawler supports,a crane structure having at least one crane boom connected to the transversal bridge,a pivot articulation that pivotally connects the transversal bridge to the crane structure,wherein at least one of the crawler supports is connected to the transversal bridge via a double link comprising:a lower link that is articulated on the crawler support via a crawler support lower pivot shaft and on the transversal bridge via a transversal bridge lower pivot shaft,an upper link that is articulated on the crawler support via a crawler support upper pivot shaft and on the transversal bridge via a transversal bridge upper pivot shaft, andan adjustment drive for pivotally displacing at least one of the upper and lower links about at least one of the pivot shafts with which said link is articulated to the crawler support and the transversal bridge, said adjustment drive being directly connected to and providing leverage to the at least one of the upper and lower links,wherein said double link controls compensation of a roll inclination of the crawler support about an axis longitudinal to a driving direction defined by the two crawler supports,wherein the mutual distance between the crawler support lower pivot shaft and the transversal bridge lower pivot shaft is virtually equal but unequal to the mutual distance between the crawler support upper pivot shaft and the transversal bridge upper pivot shaft,wherein the crawler crane further comprises a control device that is in signal connection with the at least one adjustment drive,wherein the crawler crane further comprises an inclination sensor that is in signal connection with the control device,wherein the crawler crane further comprises a regulating module that is in signal connection with the control device and with the inclination sensor and provides to the control device positioning signals for adjusting an adjustment motor in such a way that if the roll inclination of the crawler support is present, the vertical axis of the crane structure assumes a minimal angle relative to the vertical. 2. The crawler crane as claimed in claim 1, wherein two double links are provided and wherein both crawler supports are each connected to the transversal bridge via one of said double links. 3. The crawler crane as claimed in claim 2, wherein the double links of both crawler supports each have the adjustment drive for pivotally displacing at least one of the two links about the crawler support pivot shaft assigned to same. 4. The crawler crane as claimed in claim 1, wherein the lower link is connected to the adjustment drive. 5. The crawler crane as claimed in claim 1, wherein the adjustment drive has a threaded rod connected to the crawler support and a nut connected to the driven lower link, the nut being complementary to the thread of the threaded rod. 6. The crawler crane as claimed in claim 5, wherein the threaded rod has a trapezoidal external thread and the nut has a trapezoidal internal thread complementary thereto. 7. The crawler crane as claimed in claim 5, wherein the threaded rod is driven by means of the adjustment drive. 8. The crawler crane as claimed in claim 6, wherein the threaded rod extends perpendicular to a foot print plane, wherein the foot print plane is defined by a bottom tread of the crawler resting on the ground. 9. The crawler crane as claimed in claim 6, wherein the threaded rod is connected to the crawler support by means of an axial/radial bearing. 10. The crawler crane as claimed in claim 9, wherein the axial/radial bearing is fixedly connected to the crawler support in a manner so as to be able to rotate about a longitudinal axis of the threaded rod. 11. A method for fine-tuning a basic operating position of a crawler crane, wherein said crawler crane, comprises two crawler supports having rotating crawlers, at least one transversal bridge connecting the two crawler supports, a crane structure having at least one crane boom connected to the transversal bridge so as to be able to pivot about a vertical axis, a pivot articulation that pivotally connects the transversal bridge to the crane structure, wherein at least one of the crawler supports is connected to the transversal bridge via a double link comprising a lower link that is articulated on the crawler support via a crawler support lower pivot shaft and on the transversal bridge via a transversal bridge lower pivot shaft, an upper link that is articulated on the crawler support via a crawler support upper pivot shaft and on the transversal bridge via a transversal bridge upper pivot shaft, wherein the mutual distance between the crawler support lower pivot shaft and the transversal bridge lower pivot shaft is virtually equal but not equal to the mutual distance between the crawler support upper pivot shaft and the transversal bridge upper pivot shaft and an adjustment drive for pivotally displacing at least one of the upper and lower links about at least one of the pivot shafts with which said link is articulated to the crawler support and the transversal bridge, wherein the adjustment drive has a reduction gear, said adjustment drive being directly connected to and providing leverage to the at least one of the upper and lower links, wherein said method comprises the following steps: moving an undercarriage with the two crawler supports into a raw operating position, measuring the roll inclination angle of the crawler support relative to the vertical of at least one of the crawler supports, andadjusting the adjustment drive responsive to the measured roll inclination angle of the crawler support in such a way that the vertical axis of the crane structure assumes a minimal angle relative to the vertical,wherein said double link enables compensation of a roll inclination of the crawler support about an axis longitudinal to a driving direction defined by the two crawler supports,further comprising the method step of directly engaging the adjustment drive with the at least one of the two links to pivotally displace the at least one of the two links about the at least one of the pivot shafts. 12. A method as claimed in claim 11, wherein the crawler crane comprises a control device that is in signal connection with the at least one adjustment drive and wherein the crawler crane further comprises an inclination sensor that is in signal connection with the control device, wherein the measuring of the inclination angle is carried out using the inclination sensor. 13. The crawler crane as claimed in claim 1, wherein the adjustment drive has a reduction gear. 14. The crawler crane as claimed in claim 13, wherein the reduction gear has at least three gear wheels that are in combing engagement with one another, the axes of rotation of which are parallel to one another. 15. A crawler crane comprising: two crawler supports having rotating crawlers,at least one transversal bridge connecting the two crawler supports,a crane structure having at least one crane boom connected to the transversal bridge,a pivot articulation that pivotally connects the transversal bridge to the crane structure,wherein at least one of the crawler supports is connected to the transversal bridge via a double link comprising:a lower link that is articulated on the crawler support via a crawler support lower pivot shaft and on the transversal bridge via a transversal bridge lower pivot shaft,an upper link that is articulated on the crawler support via a crawler support upper pivot shaft and on the transversal bridge via a transversal bridge upper pivot shaft, andan adjustment drive for pivotally displacing at least one of the upper and lower links about at least one of the pivot shafts with which said link is articulated to the crawler support and the transversal bridge, said adjustment drive being directly connected to and providing leverage to the at least one of the upper and lower links,wherein said double link controls compensation of a roll inclination of the crawler support about an axis longitudinal to a driving direction defined by the two crawler supports,wherein the adjustment drive is exclusively attached to the lower link at a lever end, wherein the lever end being located opposite the transversal bridge lower pivot shaft, wherein the crawler support lower pivot shaft lies between the lever end and the transversal bridge lower pivot shaft,wherein the adjustment drive directly engages the at least one of the two links to pivotally displace the at least one of the two links about the at least one of the pivot shafts. 16. A crawler crane comprising two crawler supports having rotating crawlers, at least one transversal bridge connecting the two crawler supports,a crane structure having at least one crane boom connected to the transversal bridge,a pivot articulation that pivotally connects the transversal bridge to the crane structure,wherein at least one of the crawler supports is connected to the transversal bridge via a double link comprising:a lower link that is articulated on the crawler support via a crawler support lower pivot shaft and on the transversal bridge via a transversal bridge lower pivot shaft,an upper link that is articulated on the crawler support via a crawler support upper pivot shaft and on the transversal bridge via a transversal bridge upper pivot shaft, andan adjustment drive for pivotally displacing at least one of the upper and lower links about at least one of the pivot shafts with which saidlink is articulated to the crawler support and the transversal bridge, said adjustment drive being directly connected to and providing leverage to the at least one of the upper and lower links,wherein said double link controls compensation of a roll inclination of the crawler support about an axis longitudinal to a driving direction defined by the two crawler supports,wherein the mutual distance between the crawler support lower pivot shaft and the transversal bridge lower pivot shaft is virtually equal but unequal to the mutual distance between the crawler support upper pivot shaft and the transversal bridge upper pivot shaft,wherein the adjustment drive directly engages the at least one of the two links to pivotally displace the at least one of the two links about the at least one of the pivot shafts.