SU1638290A1 - Disengaging link of seismically resistant building with flexible lower storey - Google Patents

Abstract

The invention relates to switchable connections of earthquake-resistant buildings with a lower flexible floor. The purpose of the invention is to reduce the complexity of execution and installation. Paired intermediate elements in the form of wedges are placed in the gaps between the side edges of the abutment and the inclined walls of the recess of the stiffener element. 3 il.

Description

The invention relates to construction and can be used in the construction of seismic resistant buildings with a lower flexible floor.

The purpose of the invention is to reduce the complexity of execution and installation.

Fig. 1 shows a deactivating connection; Fig. 2 shows a seismic resistant building with a lower flexible floor and switching off connections; on fig.Z-power scheme. acting on the wedge.

The shutdown connection of the building to the lower flexible floor contains an emphasis 1 rigidly attached to the slab of overlap 2 of the lower floor 3 and interacting with it intermediate elements 4, installed in the gaps 5 between the stiffening element 6 and the stop 1,

The stop 1 has the shape of a trapezoid and is attached to the slab 2 with a smaller base.

Element 6 stiffness is made with a notch, the walls of which have a slope opposite to the slope of the side faces of the stop 1.

The stop 1 is placed in the recess of the element 6 stiffness with a gap relative to its outer edge.

The intermediate elements 4 are made in the form of a wedge and are placed between the side faces and the walls of the support 1.

The upper rigid floors of the building are supported on a slab of overlap 2 lower floors, mounted on horizontal racks that have stiffening elements 6 in the form of diaphragms between them.

The system works as follows. When horizontal loads occur during seismic action, forces on the wedge 4 are in accordance with the scheme shown in FIG. where 04 is the weight of the wedge; f, F is the friction force between the surface of mm wedges 4 of the element 6 stiffness and the stop 1; N is the force of pressure on the wedge A,

Provided

2Fsln a + Q 2N cos a

the building works as usual a rigid situation and having corresponding periods of oscillations. As the force increases, the pressure on the wedge 4 and the condition

2F sina + Q 2N cos a

wedge 4 will be squeezed out, which will lead to a change in the rigidity of the building and, consequently, to its exit from the resonant mode. Under the action of the force Q, the wedge 4, after completion of the oscillation cycle, returns to its initial position, which causes a change in stiffness in each cycle.

The structure of the switching off connections is not destroyed in the area of impact, is easy to manufacture and does not contain elements that are not typical for building structures.

Claims (1)

Formula of the invention Disconnecting the connection of an earthquake-resistant building with a lower flexible floor, containing an emphasis rigidly attached to the slab of the lower floor, and an intermediate element cooperating with it, installed in the gap between the stiffness element and the emphasis, so as to reduce labor intensity execution and installation, the connection is provided with an additional intermediate element, and the stop has the shape of a trapezium and is attached to the slab with a smaller base, and the stiffening element is made with a notch, the walls of which eyut slope opposite to the slope of the side faces of the stop, the stop is situated in a recess of the stiffening member with a clearance relative to its bottom face, and the intermediate elements are in the form of a wedge, and placed between the side faces of the recesses and the abutment. FIG. I FIG. 2