SU912894A2 - Framework of earthquake-proof multistorey building - Google Patents

Description

I

The invention relates to the construction, can be applied in the frameworks of seismic multi-storey buildings and structures.

According to the main author. St. No. 754О05 is known for the skeleton of an earthquake-resistant multi-storey building, including columns and girders forming cells, and placed in them diagonally, combined by a closed loop located at the center of the intersection; cells and rigidly attached to connections, in which the closed loop is made in the form of a ring

The disadvantage of this design is the fact that with the development of plastic deformations in the ring, there are no elements in the frame that work in an elastic stage that facilitate its return to its original position. The absence of an elastic core in the structure reduces the seismic resistance of the frame due to the possibility of the accumulation of unacceptable one-sided deformations.

Iel invention - enhancing seismic P-1 zdaish.

This goal is achieved by the fact that in the frame of an earthquake-resistant multi-storey building there is a closed loop with a cross-shaped element made of pipes with stops and springs placed on them by BiiyTpH; external ends - plugs with holes for the passage of g

10 with a gap. relatively closed, contour and interacting with tgami attached at one end to a closed contour, and the other - to t10ram, and

and the element is placed on the axis of the diagonal links.

FIG. 1 shows a multistory building, a general view of FIG. 2 - a communication node with a closed loop and a cross shaped element.

The seismic frame of the building includes columns 1 and girders 2 forming Zkarkas cells and

diagonal connections 4 and a closed loop in the form of a ring 5 located at the intersection of diagonal connections 4.

Inside the closed loop 5, the rods 6 and the cruciform element 7, made of pipes 8 with the stops 9 and springs 1O placed inside them, are placed. At the broken ends of the tubes 8 of the cruciform element 7, plugs 11 are installed with openings for the passage of 6 gs. The element 7 is placed with a gap relative to the closed loop 5, T h gi 6 are attached at one end to the closed loop 5, and the other end to the stops 9. Tubes 6 n of the tube 8 of the cruciform element 7 are installed along the axes of the diagonal links 4.

From a horizontal seismic load in a single bracing 4, a growth of 1 left force arises, in a bar the compressive, under the influence of which the closed loop 5 deforms, and the brace 6 located along the stretch axis nuxro of brace 4, is mixed from the cent - Pa of the assembly, while the two fittings 1O, mounted in the cruciform seal 7 between the stops 9 and the plugs 10, are compressed. The two other thrust rods 6 move freely in the cruciform element 7. When the load changes its direction of action, another bracing 4 is stretched, and compression of the spring 1O contributes to the return of the frame to its original position.

The parameters of the closed loop 5 and the terminal 10 are assigned in such a way that with wind, crane loads

He worked resiliently, and at settlement. The seismic load in the ring 5 developed plastic deformations, while the springs 10 must always work resiliently.

The presence of a cruciform element 7 with springs 10 allows the elastic core to retain in the building frame during an earthquake, which contributes to the return of the structures to their original position and eliminates the possibility of the accumulation of dangerous one-sided deformations, thereby providing a seismic flow of the building.

Formula and 3 about b e te

n and

Frame seismic multi-storey building on author. St. No. 754005, which means that, in order to increase the seismic resistance of the building, each closed loop is equipped with tangs and a cruciform element made of pipes with lugs and springs placed inside them, and at the outer ends plugs with openings for skipping t, installed with a gap relative to a closed contour and interacting with rods attached at one end to a closed contour, and the other to the tors, with the pipes and pipes of the cruciform element being placed along the axes of the diagonal links.

Sources of information taken into account in the examination

1. USSR author's certificate No. 754005, class, - E 04 H 9/02, 1979.

Claims (1)

Claim Frame of earthquake-resistant multi-storey building 20 St. No. 754005, because of the fact that, in order to increase the earthquake resistance of the building, each closed circuit is equipped with rods and a cross-shaped element made of pipes with stops and springs placed inside them, and at the outer ends - plugs with holes for the passage of rods, installed with a gap relative to the closed loop 30 and interacting with rods attached at one end to the closed loop, and the other to the stops, and the three and pipes of the cross-shaped element are placed along the axes of the diagonal connections. ₃₅ Sources of information taken into account in the examination 1. USSR author's certificate No. 754005, class. - E 04 I 9/02, 1979. ¢ 7 / 2. /