SU896230A1 - Earthquake-proof framework of multistorey building - Google Patents

Description

(54) SEISM RESISTANT FRAME MULTILEVEL BUILDING

I

The invention relates to the construction and can be used in the earth-resistant construction of residential and public buildings.

The seismic-resistant frame of a multi-storey building is known, including pa-i we are made of beams and columns forming cells, and prefabricated elements of stiffness diaphragms, made of U shaped seni, located in frame cells and rigidly connected by upper and lower frames and columns of frame.

The closest to the proposed technical entity is a seismic frame of a multi-storey building, including longitudinal and transverse frames of beams and columns forming cells, in which prefabricated stiffening diaphragm elements are placed, installed with a gap between them and the columns, and rigidly connected to the upper and lower girders 2.

A common drawback of such solutions is that the arrangement of the elements of the diaphragms is the same on all floors, i.e. the construction of the diaphragm filling the cell frame, repeated from the lower floor of the building to the upper floors, maintaining constant rigidity along the entire height of the building. Such a solution does not correspond to hara; a center for the distribution of seismic loads on a building and leads to an unjustified overestimation of rigidity in the upper floors of buildings, an increase in seismic loads and the material intensity of the structures as a whole.

15

The U-shaped cross section of individual elements for jelly concrete is not technological, fixing the lintels to the lateral face of the horizontal beams complicates the joints and disturbs the interior of the rooms; as niches are formed, bounded by horizontal and vertical framework elements. Adjacent is simple

The site is constrained by protruding vertical ribs of the jumpers.

The purpose of the invention is to control the rigidity of the transverse and longitudinal frames in accordance with the distribution of seismic loads.

The goal is achieved by the fact that in an earthquake-proof framework of a multi-storey building, including longitudinal and transverse frames of crossbars and columns, forming cells, in which are prefabricated elements of stiffening diaphragms installed with a gap between themselves and with columns, and rigidly connected with upper and lower crossbars , elements of stiffening diaphragms are installed in the frame cells, and their number decreases with increasing height of the building.

FIG. 1 shows a transverse frame with stiffening diaphragmsJ in FIG. 2 shows section A-A in FIG. one; in fig. 3 is a diagram of the reinforcement of the elements of the rigidity diaphragm.

The seismic-resistant frame of a multistory building consists of longitudinal 1 and transverse 2 frames made of crossbars 3 and columns 4 with the formation of cells 5 in which prefabricated elements 6 of stiffening diaphragms are placed. Elements 6 are installed in 5 with a gap of 7 between themselves and between the extreme elements 6 and columns 4 and are rigidly attached to the upper and lower bolts 3.

The number of elements 6 in the cell 5 frames 1 and 2 is decreasing with increasing height of the building: in the lower floor - the maximum number, in the upper - the minimum.

Elements 6 diaphragm stiffness are made with a diagonal cross-arrangement of the working reinforcement 8, which increases the compliance and energy intensity of the structure.

This arrangement of stiffeners allows the stiffness of the transverse and longitudinal frames to be adjusted in accordance with the nature of the distribution of seismic loads, as well as to reduce the material: the hardness diaphragm band.

Claims (2)

Invention Formula Earthquake-resistant multi-storey carcass; buildings, including longitudinal and Hbie-shaped frames made of beams and columns forming cells, in which prefabricated stiffening diaphragm elements are placed. Installed with a gap between them and with columns and rigidly connected with upper and lower bolts, characterized in that, in order to adjust the rigidity of the transverse and longitudinal frames of the frame in accordance with the nature of the distribution seismic loads, elements of stiffness diaphragms are installed in frame cells, and their number decreases with increasing building height. Information sources. Considered in the examination G. For Japan Japan No. 49-5969, CP. E 04 p L / 24, 1974. 2. Japanese Application No. 49-5971, cl. E 04 B 1/24, 1974.