Box girder, in particular crane girder, and crane herewith as well as manufacturing method therefor

The invention claimed is: 1. A crane girder and trolley for a crane comprising: a crane girder comprising; two side plates spaced apart from each other; at least one chord plate connecting the two side plates to each other, wherein the at least one chord plate defines a horizontally extending plane; at least one transverse plate that is arranged between the side plates and that connects the side plates to each other; and a welded joint connecting the respective chord plate and the side plates; wherein at least one form-fitting connection comprising a plug-in connection is disposed at the transverse plate and each of the two side plates, and wherein at least one form-fitting connection comprising a plug-in connection is disposed at the transverse plate and the chord plate; a crane trolley supported on the crane girder, wherein the crane trolley is configured for movement along the crane girder. 2. The crane girder and trolley as claimed in claim 1 , wherein each respective form-fitting connection comprises a plug-in portion of the transverse plate that is received by a corresponding receiving aperture of the respective side plate and the respective chord plate, with each receiving aperture having a substantially complementary shape relative to the respective plug-in portion. 3. The crane girder and trolley as claimed in claim 2 , wherein each plug-in portion is formed as a protrusion of an outer edge of the transverse plate, and wherein the protrusion has a rectangular shape. 4. The crane girder and trolley as claimed in claim 3 , wherein at least one of the plug-in portions is designed to form a support element extending through the corresponding receiving aperture, with the support element being configured to attachably receive a crane equipment element comprising a power supply line and/or a platform for personnel. 5. The crane girder and trolley as claimed in claim 4 , further comprising a force-transmitting connection comprising a further welded joint provided between the transverse plate and the respective side plate and/or between the transverse plate and the respective chord plate, wherein the further welded joint comprises a fillet or a plug weld type. 6. The crane girder and trolley as claimed in claim 5 , wherein the at least one chord plate comprises two chord plates, and wherein each chord plate can alternatively form an upper chord in a first orientation of the box girder or a lower chord in a second orientation of the box girder, and wherein, independently from the orientation of the box girder, a running surface for wheels of the crane trolley is provided on the same chord plate. 7. The crane girder and trolley as claimed in claim 2 , wherein each plug-in portion is formed as a protrusion of an outer edge of the transverse plate. 8. The crane girder and trolley as claimed in claim 7 , wherein each protrusion has a rectangular shape. 9. The crane girder and trolley as claimed in claim 2 , wherein at least one of the plug-in portions is designed to form a support element extending through the corresponding receiving aperture, with the support element configured to attachably receive a crane component. 10. The crane girder and trolley as claimed in claim 1 , further comprising a force-transmitting connection comprising another welded joint provided between the transverse plate and the respective side plate and/or between the transverse plate and the respective chord plate. 11. The crane girder and trolley as claimed in claim 1 , wherein the at least one chord plate comprises two chord plates with one chord plate disposed at one end of the side plates and the other chord plate disposed at an opposite end of the side plates. 12. The crane girder and trolley as claimed in claim 11 , wherein each chord plate can alternatively form an upper chord in a first orientation of the box girder or a lower chord in a second orientation of the box girder, and wherein, independently from the orientation of the box girder, a running surface for wheels of the crane trolley is provided on the same chord plate. 13. A crane having a crane girder and a crane trolley supporting a lifting gear that is arranged on the crane girder, wherein the crane comprises: two side plates spaced apart from each other; two chord plates comprising an upper chord and a lower chord connecting the two side plates to each other, wherein the upper chord and lower chord define horizontally extending planes; at least one transverse plate that is arranged between the side plates and that connects the side plates to each other; and a welded joint connecting the respective chord plate and the side plates; wherein at least one form-fitting connection comprising a plug-in connection is disposed at the transverse plate and each of the two side plates, and wherein at least one form-fitting connection comprising a plug-in connection is disposed at the transverse plate and at least one of the two chord plates, and wherein a lifting gear is movable along the crane girder on its upper chord or lower chord by a crane trolley. 14. The crane as claimed in claim 13 , wherein each respective form-fitting connection comprises a plug-in portion of the transverse plate that is received by a corresponding receiving aperture of the respective side plate and the respective chord plate, with each receiving aperture having a substantially complementary shape relative to the respective plug-in portion. 15. The crane as claimed in claim 13 , wherein each plug-in portion is formed as a protrusion of an outer edge of the transverse plate. 16. The crane as claimed in claim 13 , wherein at least one of the plug-in portions is designed to form a support element extending through the corresponding receiving aperture, with the support element configured to attachably receive a crane component. 17. The crane as claimed in claim 13 , further comprising a force-transmitting connection comprising another welded joint provided between the transverse plate and the respective side plate and/or between the transverse plate and the respective chord plate. 18. A method of producing a crane girder, said method comprising: spacing two side plates apart from each other; arranging at least one transverse plate between the side plates; and connecting the two side plates to each other with the at least one transverse plate and with at least one chord plate, wherein the at least one chord plate defines a plane that extends horizontally when connected thereto and wherein said connecting the two side plates to each other includes at least one form-fitting connection comprising a plug-in connection disposed at the transverse plate and each of the two side plates, and includes at least one form-fitting connection comprising a plug-in connection disposed at the transverse plate and the chord plate; welding a joint between the respective chord plate and the side plates after said connecting the two side plates to each other; and supporting a crane trolley for movement on one of the at least one chord plates. 19. The method of producing a crane girder as claimed in claim 18 , wherein each respective form-fitting connection is produced by plugging a plug-in portion of the transverse plate into a corresponding receiving-aperture of the respective side plate and the respective chord plate, each receiving aperture having a substantially complementary shape relative to the respective plug-in portion. 20. The method of producing a crane girder as claimed in claim 18 , further comprising welding a force-tra