RU46517U1 - Foundation for earthquake-resistant building - Google Patents

Abstract

The utility model relates to construction, in particular to the construction of foundations of buildings, structures, erected in seismic areas. EFFECT: increased reliability of the foundation of an earthquake-resistant building. To achieve this technical result, in the foundation of an earthquake-resistant building, including the upper and lower plates with rectangular recesses located opposite each other, spring-loaded elastic elements are installed in a housing consisting of two parts interconnected by detachable joints, the spring-loaded elastic elements being rigidly connected to the housing and mounted in rectangular recesses between the upper and lower plates.

Description

The utility model relates to construction, in particular to the construction of foundations of buildings, structures, erected in seismic areas.

The foundation of an earthquake-resistant building is known, including upper and lower support belts and vertical and horizontal shock-absorbing support elements placed between them, each horizontal shock-absorbing element being equipped with stops installed at its ends (SU, No. 746045, E 02 D 27/34, 07.07.80 Bulletin No. 25).

The disadvantage of this foundation is the lack of seismic resistance due to the inability to control the damping forces, to achieve their optimal parameters. The seismic resistance of buildings with such a foundation is ensured only in a narrow part of the range of seismic vibrations.

The closest technical solution to the claimed utility model is the foundation of the earthquake-resistant building, including the upper and lower plates connected by flexible vertical ties, and a massive block placed on the basis of friction material, spring-loaded stops with adjusting devices and wedging elements installed on them, with the upper and the lower plate is made with rectangular recesses located opposite each other, the massive block is placed with its lower part in the lower recess plates and made with beveled side walls, proppants are placed between the beveled walls of the massive block and the vertical walls of the recess of the upper plate, and spring-loaded stops are installed between the massive block and

the horizontal wall of the recess of the upper plate (SU No. 85160, E 04 H 9/02, E 02 D 27/34, 08/15/1981, bull. No. 30).

The disadvantage of this foundation is the complexity of the structural implementation of the adjusting device and the low reliability of the foundation during seismic vibrations.

The technical result, which the utility model aims to achieve, is to increase the reliability of the foundation of an earthquake-resistant building while simplifying the design of seismic protection by providing an optimal level of dry friction forces in the space between the upper and lower foundation plates.

To achieve this technical result, in the foundation of an earthquake-resistant building, including the upper and lower plates with rectangular recesses located opposite each other, spring-loaded elastic elements are installed in a housing consisting of two parts interconnected by detachable joints, the spring-loaded elastic elements being rigidly connected to the housing and mounted in rectangular recesses between the upper and lower plates.

New in the claimed technical solution is the implementation of spring-loaded elastic elements and placing them directly in the space between the upper and lower base plates. In the proposed device, the dry friction force is controlled by changing the spreading force in the elastic elements through which the weight of the structure is transferred to the surface of the space between the upper and lower plates, which increases the efficiency of damping seismic vibrations and, as a result, increases the reliability of the foundation of an earthquake-resistant building, and simplifying the building's seismic protection design.

The essence of the utility model is illustrated by drawings, where Fig. 1 shows a longitudinal section of the foundation, and Fig. 2 shows a transverse section of the foundation.

The foundation of an earthquake-resistant building includes an upper plate 1, a lower plate 2, which are made with rectangular recesses 3, 4 located opposite each other, spring-loaded elastic elements 5, for example, springs, thin-walled metal sheets with a curved surface can be used, elastic elements 5 are installed in the housing 6, with which it is rigidly connected, the space between the upper 1 and lower 2 plates is filled with gaskets 7 made of friction material, for example vermiculite, and the housing 6 consists of two parts connected between bolts 8 (figure 2), the elastic elements 5 located in the housing 6 are installed in rectangular recesses 3, 4 of the upper 1 and lower 2 plates.

The work of the foundation of an earthquake-resistant building is as follows.

When the acceleration of vibrations of the base begins to exceed the calculated limit, shifts of the upper plate 1 with respect to the lower plate 2 begin. Due to the gaskets 7 made of friction material, which helps to absorb the energy of seismic vibrations and reduces seismic loads on the building, it is possible to return the top plate 1 to starting position. If the elastic limit of the gaskets 7 is exceeded, significant shifts can occur between the upper plate 1 and the lower plate 2, these shifts are limited by adjusting the thrust force in the spring-loaded elastic elements 5 using bolts 8, providing optimal dry friction forces.

The proposed device allows to increase the reliability of the building during seismic loads by ensuring the optimal conditions of dry friction in the space between the upper and lower foundation plates without the introduction of additional shock absorbing elements and adjusting devices. The proposed device is simpler in comparison with the prototype, can reduce the cost of its construction and operation. Through the use of spring-loaded elastic elements,

which can be freely inserted and removed from the space between the upper and lower foundation plates, it is possible to significantly increase the earthquake resistance of existing buildings and structures.

Claims (1)

The foundation of the earthquake-resistant building, including the upper and lower plates with rectangular recesses located opposite each other, spring-loaded elastic elements, characterized in that the spring-loaded elastic elements are rigidly connected to the casing, consisting of two parts interconnected by detachable joints, and are installed in rectangular recesses between top and bottom plates.