SU838083A1 - Framework of earthquake-proof building - Google Patents

Description

The invention relates to the construction and can be used in the construction of frames of single-storey and multi-storey buildings in seismic areas. Building frames are known with various types of vertical communications along fibers, including cross-braces and struts, allowing for building rigidity l. The disadvantage of such frames is the low cyclic strength of the bonds when operating on alternating seismic loads. The closest to the invention, according to the achieved result, is a skeleton, including cell-forming columns and girders and tilted links placed in the tubes, combined in the center of each cell with an additional element 21. The disadvantage of this frame is the low absorptivity of the stiffening element from for its rapid destruction in the nodes under alternating cyclic loading and a complex constructive solution. The purpose of the invention is to increase the seismic resistance and reduce the metal intensity. This goal is achieved by that in the frame of a seismic resistant building, which includes cell-forming columns and girders and inclined links placed in cells, combined in the center of the cell with an additional communication element, the latter are made in the form of a metal I-beam, and the 1st link is centering can be made with a corrugated wall or with zones of equal resistance. FIG. 1 shows the frame of a single-story building, a section; in fig. 2 section of a multistory building, section; in fig. 3 - frame cell with links.

The frame of the earthquake-resistant building includes columns 1 and girders 2 forming cells 3 and placed in them. tilted links 4, combined in the center of the cell 3 by an additional element made in the form of a metal beam 5 of I-section At the junctions of the link with the beam 5, the links 4 are centered,.

Under horizontal seismic load, due to misalignment of links 4, beam 5 operates on bending. The cross section of beam 5 is designed so that, at design seismic loads, plastic hinges occur in the middle part 6 of the beam, thereby absorbing a significant portion of the seismic energy, resulting in increased seismic resistance building Work on this topic of communications 4 beams 5 is capable of withstanding up to 100 cycles of alternating loading and ensure the preservation of the framework, as in the design seismic loads, taK and in case of peak overloads. To increase the cyclic durability, the middle part 6 of the beam is recommended to be made with a corrugated wall or with zones of equal resistance.

The proposed frame design is simple, in manufacturing, allows to reduce the longitudinal stiffness of the frame, thereby reducing the seismic load and the metal consumption on the link

UP TO 10-20%, and is characterized by high energy absorbing ability, which guarantees the safety of buildings at

Strong land plots.

Claims (2)

1.Velen E.I. Metal structures. M., stroiizdat, 1976, with. 489, p. XX-5. 2. Authors certificate of the USSR 562636, cl. E 04 H 9/02, 1974.