RU156644U1 - Foundation for earthquake-resistant building - Google Patents

Abstract

The foundation of an earthquake-resistant building, including a support element, piles, fasteners, ties connected to the support element, characterized in that the ties are inclined to the soil base, and the piles are made in the form of cylinders in which dampers are installed.

Description

The utility model relates to the field of construction of structures of earthquake-resistant buildings being erected in areas of permafrost, and in particular to the construction of foundations.

The construction of the foundation of buildings erected in seismic regions is known, including a grillage and piles pivotally connected to it, each of which in the upper part is freely placed inside the tubular element and has a gasket at the upper end (SU No. 1458507, E02D 27/34, 02.15.1989) .

The disadvantage of this design is the low seismic resistance of the building, the complexity of installation of the structure and non-repairability.

The closest technical solution to the claimed utility model is an earthquake-resistant foundation, including piles and a support element, mounted on the edge of an intermediate pillow buried in the ground made of bulk material, supported on the heads of piles that are connected by ties to the support element (SU No. 1609871, E02D 27/34 12.01.1989).

The disadvantage of this design is the low seismic resistance of the building due to the low damping of seismic vibrations.

The objective of the utility model is to increase the earthquake resistance of a building, as well as to increase operational characteristics.

The technical result is achieved in that in the foundation of an earthquake-resistant building, including a support element, piles, fasteners, ties connected to the support element, the ties are inclined to the soil base, and the piles are made in the form of cylinders in which dampers are installed.

The foundation design of an earthquake-resistant building is shown in the drawing.

The foundation of an earthquake-resistant building consists of support elements 1, piles 2, fasteners 3, tie rods 4 connected to the support element 1, tie rods 4 are inclined to the soil base 5, and pile 2 is made in the form of cylinders in which dampers 6 are installed.

With fluctuations caused by seismic effects, the aboveground part of the building 7 moves, this is due to the vertical flexible support elements 1.

Upon reaching an amplitude of oscillations of a certain magnitude, the vertical displacements begin to be limited by bands 4 installed at angles to the soil base 5, which protects the supporting elements 1 from undesirable loads. The rods 4, in turn, are attached to the supporting elements 1 by fasteners 3. The effect transmitted through the rods 4 includes dampers 6. The dampers 6 are located in the cavities of the piles 2, which are buried in the soil base 5, a similar arrangement protects the dampers 6 from external influences Wednesday. The location of the cords 4 at an angle to the soil base 5 increases the range of directions of work of the cords 4 and damper 6 under seismic impact. Thus, damping occurs both with horizontal and vertical directions of seismic impact.

The type, material, angle of inclination to the soil base and other characteristics of the cords 4 are selected depending on the conditions of construction and operation of the building, it is also possible to replace the cords 4 during operation, which makes the system more flexible and maintainable.

This foundation of an earthquake-resistant building is quite simple and can be used in various climatic conditions, for example, in areas of permafrost distribution.

Claims (1)

The foundation of an earthquake-resistant building, including a support element, piles, fasteners, ties connected to the support element, characterized in that the ties are inclined to the soil base, and the piles are made in the form of cylinders in which dampers are installed.

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