Telescopic boom and crane

The invention claimed is: 1. A telescopic boom for a crane comprising: at least two telescopable telescoping sections formed as lattice pieces, each of which exhibits a box-shaped hollow structure, the sections having bottom corner struts defining first surface areas at an underside of the boom facing a load during normal crane operations, as well as top corner struts defining second surface areas at a top side of the boom opposite to the underside of the boom; a pinned joint provided to the first surface areas of adjacent sections of the telescoping sections at the boom underside, the pinned joint provided in order to pin the first surface areas of the adjacent sections at the boom underside to each other during the normal crane operations; and tension rods and compression struts, arranged on an outer section of the at least two telescoping sections, each of the tension rods having one end connected to a pin retainer of the pinned joint at the underside of the boom and another end connected to one of the bottom corner struts, each of the compression struts extending between and connecting the underside and the top side of the boom, wherein at least some force introduced into the pinned joint is dissipated by way of the tension rods and the compression struts into the top corner struts of the boom. 2. The telescopic boom as claimed in claim 1 , wherein the pin retainer is in the form of a sheet metal pinning plate with a passage opening and the pinned joint connects two adjacent bottom sections of the telescoping sections together. 3. The telescopic boom as claimed in claim 2 , wherein the pinning plate has a width that is tapered off in a direction of the corner struts. 4. The telescopic boom as claimed in claim 3 , wherein the pinning plate is connected to at least one of the bottom corner struts by a pair of said tension rods. 5. The telescopic boom as claimed in claim 4 , wherein at least one connecting point of one of the tension rods to the at least one bottom corner strut is connected by one of the compression struts to one of the top corner struts. 6. The telescopic boom as claimed in claim 1 , wherein the pinned joint includes a connecting plate to receive a movable pin. 7. The telescopic boom as claimed in claim 6 , wherein the pin is guided perpendicular to a defined surface area through the connecting plate. 8. The telescopic boom as claimed in claim 1 , wherein the boom has a fixed end region that is stiffened. 9. The telescopic boom as claimed in claim 1 , wherein the corner struts are configured so as to be at least one of edged, bent, and manufactured from tubular sections, extruded profiles, or both tubular sections and extruded profiles. 10. The telescopic boom as claimed in claim 1 , wherein the boom is guyed by a guying system that connects the boom to a guying frame. 11. A telescoping section for a telescopic boom as claimed in claim 1 . 12. A mobile crane for assembly of a wind power plant comprising a telescopic boom as claimed in claim 1 . 13. A mobile crane for assembly of a wind power plant comprising a telescopic boom as claimed in claim 6 . 14. A mobile crane for assembly of a wind power plant comprising a telescopic boom as claimed in claim 8 . 15. A mobile crane for assembly of a wind power plant comprising a telescopic boom as claimed in claim 10 .