SU876892A1 - Three-dimensional framework of multistorey building - Google Patents

Description

(64) SPATIAL METAL FRAME OF MULTILEVEL BUILDING

I.,

 The invention of OTHocHtCH for construction and can be used in the erection of high-rise buildings and structures.

The spatial metal frame of a multistory building with a rhombic grid of columns located along the perimeter of the building is known, in which the frame struts of the framework are made of two corners and have a very frequent grid 11.

The disadvantage of this framework: a is the laboriousness and inefficiency of the application for compressed corners.

The closest in technical essence and the achieved effect is the spatial metal framework of a multistory building, including internal columns and rungings, core elements and nodal grommets of hollow balls, cut, placed along the building permmeter 2.

The disadvantage of such a frame is the high cost and complexity of manufacturing hollow ball fittings, a large amount of assembly welding and non-centered transfer of loads from beams to the spatial frame assemblies.

The purpose of the invention is to reduce metal holding capacity and simplify installation.

This goal is achieved by the fact that in the spatial metal frame of a multi-storey building, including internal columns and girders and core elements located on the building perimeter and node nodes, each node plate is made in the form of a sheet diaphragm ring, the core elements are attached to the ring with bolts , and the bolt - to the sheet diaphragm with

10 flange and bolts.

FIG. 1 shows the proposed spatial framework, a general view; on fng. 2 knot for connecting rod elements to a knotted joint; in fig. 3 - section 15A-A in FIG. 2

The spatial metal frame of a multistory building consists of corner columns 1, internal columns 2 and girders 3, core elements 4 and nodal gussets 5 placed along the perimeter of the building.

10 Nodal grommets 5 are made in the form of a ring 6 with a sheet diaphragm 7. The rod elements 4 are attached to the rings 6 with the help of bolts 8, and the crossbars to the sheet diaphragms 7 with the help of flanges 9 and bolts 8.

All the loads acting on the building are transmitted in the nodes of the supports of the girders 3 through the flanges 9 and the bolts 8 to the diaphragm 7 of the nodular gusset 5 strictly in the center of the frame npocTpaficTBeHHoro frame, which causes only compressive or tensile forces in the core elements 3 of the frame. The forces acting in the core elements of the 3 frame, cause bending moments in the nodal fasoics, and in the diaphragms compressive or tensile stresses and shears.

The use of the proposed spatial metal frames allows to reduce the consumption of steel, increase the factory readiness of the elements and completely eliminate; The laboriousness of the welding works during the installation of co-structures, thereby increasing labor productivity.

Claims (2)

The invention The spatial metal frame of a multi-storey building, which includes internal columns and bellows and core elements and nodal gaps placed around the building perimeter, characterized in that, in order to reduce metal consumption and simplify mantage, each knot is made in the form of a ring with a diaphragm sheet. This core elements attached to the ring with bolts, and the bolt - to the sheet diaphragm with a flange and bolts. Sources of information taken into account in the examination. Hart F. et al. Atlas of steel structures. High-rise buildings. M., stroiizdat, 1977, p. 222, p. 12. 2. Earthquake-resistant metal frameworks of buildings with an increase in the number of storeys in Almaty. Express information № 5, Kaz. TsNTIS Gosstro Kaz.SSR, Alma-Ata, 1974, p. 21, p. 16, 18. Aa