RU73350U1 - COMPREHENSIVE SYSTEM OF SEISMIC RESISTANCE OF BUILDING OR STRUCTURE - Google Patents

Abstract

The utility model relates to the construction of buildings and structures in seismic areas. In order to reduce various types of seismic effects, an integrated seismic stability system for a building or structure containing a monolithic spatial foundation platform made of two thin reinforced concrete foundation plates located one above the other, thin plates are monolithically bonded to each other by cross reinforced concrete beams, the space between which is filled with insulation, between the platform and the base there is a sliding layer with a monolithic spatial base plate the form is fixed to a building or a frame or box-type structure rigidly attached to it, which, together with a monolithic spatial base platform on a sliding layer, is combined into a single, multiply connected system of a closed type, which, even when disconnected from the base of the spatial base platform, retains its geometric immutability, and is made around the platform trench. The dimensions of the monolithic spatial foundation platform in terms of more than the length of the seismic wave, the platform has increased spatial bending stiffness due to its structural form at low material consumption, which together creates the conditions for a wave-extinguishing effect, and the presence of a sliding layer between the spatial foundation platform, which reduces friction between the platform and base, creates the possibility of slipping a dynamic wave of high power under a monolithic spatial foundation ment platform. The trench around the monolithic spatial foundation platform is made near it and has a depth of about half the width of the building or structure, in

the cross section may be trapezoidal or stepped narrow in shape with filling with a porous material that absorbs wave energy.

Description

The utility model relates to the construction of buildings and structures in seismic areas.

A known screen for protecting structures from seismic effects (see patent No. 1423694, E02D 27/34. BI No. 34, 1988). The invention improves the seismic isolation of the structure. The screen is made in the form of a trench located around the structure. The trench contains a flat wall remote from the structure, as well as an inner wall adjacent to the surface of the trench adjacent to the structure, and a lower wall adjacent to the bottom of the trench. The inner and lower walls make up the corner wall. The outer wall is connected to the bottom wall through a cylindrical hinge through a dry friction system. The trench is filled with liquid and compressed gas, the pressure of which is regulated by valves. The top of the trench is covered by a damping pad. The outer and lower walls are made with anchor triangular protrusions.

A known screen for protecting the foundations of buildings, structures from the effects of soil vibrations, including a trench along the perimeter of the structure along its perimeter with a variable cross-section in height and material absorbing vibration, placed in it, one of the walls of the trench is made of a convex curve of the second order or along circles (see patent No. 727764, E02D 27/34, BI No. 14, 1980).

A known screen for protecting the foundations of buildings, structures from the effects of soil vibrations mainly during seismic effects, including a trench that absorbs vibrations formed at a distance from the building, structures along its perimeter, the trench made in a cross-section of a trapezoidal shape (see patent No. 601355, MKI 2 E02D 27/34, BI No. 13, 1978).

The disadvantages of these inventions is that each of them has its own "narrow" area of effective action (protection), which does not cover a wide range of seismic effects (longitudinal, transverse, vertical, asymmetric, torsional) and is little adapted to reflection of repeated seismic effects (in including for the convenience of repair work). These inventions do not have a sufficient set of comprehensive measures to reduce the entire possible spectrum of seismic effects.

The closest technical solution, taken as a prototype, is a monolithic spatial foundation platform (patent No. 45410, Е02D 27/32, 27/34, 27/35. BI No. 13, 2004), which contains thin reinforced concrete foundation slabs of a solid cross section laid on the base. The monolithic spatial foundation platform is made of two thin reinforced concrete foundation plates located one above the other, thin plates are monolithically fastened together by cross reinforced concrete beams, the space between which is filled with insulation. Between the monolithic foundation plate and the base there is a sliding layer of materials with a low value of the coefficient of friction.

A monolithic spatial foundation platform mounted on a sliding layer can protect a building or structure installed on it only from large seismic impacts that overcome friction between the spatial foundation platform and the base, but do not reduce incoming seismic effects on the monolithic

spatial foundation platform, and with less seismic impacts it does not work.

The disadvantages of these inventions is that the sliding layer is triggered (i.e. makes it possible to slip the seismic wave under the foundation) only if the seismic effect is greater than the friction force. With a smaller value, the seismic effect is transmitted to a monolithic spatial foundation platform and then to the upper structure. To ensure complete systemic antiseismic protection, a complex of devices is required, in the interaction of which the whole wide spectrum of seismic effects (longitudinal, transverse, vertical, asymmetric, torsional) is completely blocked.

In order to eliminate these shortcomings, i.e. reduction of various types of seismic effects, an integrated seismic stability system of a building or structure containing a monolithic spatial foundation platform made of two thin reinforced concrete foundation plates located one above the other, thin plates are monolithically fastened together by cross reinforced concrete beams, the space between which is filled with insulation, between the platform and a sliding layer is installed on the base, on which a monolithic spatial foundation platform a rigidly attached building or a frame or box-type building is installed, which, together with a monolithic spatial base platform on a sliding layer, is combined into a single, multiply connected closed-type system, which, even when disconnected from the base of the spatial base platform, remains geometrically unchanged, and a trench is made around the platform . The dimensions of the monolithic spatial foundation platform in terms of more than the length of the seismic wave, the platform has increased spatial bending stiffness due to its structural form with low material consumption, which together creates the conditions for a wave-extinguishing effect, and the presence

the sliding layer between the spatial foundation platform, which reduces friction between the platform and the base, makes it possible for a high-power dynamic wave to slip under a monolithic spatial foundation platform. The trench around the monolithic spatial foundation platform is made near it and has a depth of about half the width of the building or structure; in the cross section, it can be trapezoidal or stepped narrow in shape with filling with porous material that absorbs wave energy.

If the dimensions of the monolithic spatial foundation platform are greater than the wavelength, then the platform has a wave-suppressing effect. As the computer experiment determined, it is advisable to place the trench near a monolithic spatial foundation platform at a distance of 1-2 meters. The protection effect is manifested the more, the deeper the trench. The rational depth of the trench is equal to or greater than about half the width of the protected (shielded) building or structure. At the same time, the width of the trench does not play a significant role, the trench can be narrow (about 10-20 cm), trapezoidal or stepped (wider up and narrow down). An integrated seismic stability system of a building or structure provides complete antiseismic protection of buildings or structures on a monolithic spatial foundation platform with a sliding layer in the interaction of which completely covers the whole wide range of seismic effects (longitudinal, transverse, vertical, asymmetric, torsional).

The integrated seismic stability system of a building or structure is presented at

figure 1 - General view of the system;

figure 2 is a top view.

The device consists of: a monolithic spatial foundation platform 1 mounted on a sliding layer 2 between the platform and the base 3. Monolithic spatial foundation platform

made of two thin reinforced concrete foundation slabs 4, located one above the other, monolithically fastened together by cross reinforced concrete beams 5, the space between which is filled with insulation.

On a monolithic spatial foundation platform 1, on a sliding layer 2, a building or structure of a frame or box-type 7, rigidly attached to the nodes 6, is installed, which, together with the monolithic spatial foundation platform 1, is combined into a single closed multiply connected system, which even when disconnected from the base spatial base platform 1 retains its geometric immutability. Around the monolithic spatial foundation platform 1, a trench 8 was made near it. The dimensions of the monolithic spatial foundation platform 1 are larger in plan view than the seismic wavelength, it has increased spatial bending stiffness due to its structural shape with low material consumption, which together creates the conditions for the wave-extinguishing effect, and the presence of a sliding layer 2 between the monolithic spatial foundation platform 1, which reduces friction between the platform and the base 3, creates the possibility High power creep under a monolithic spatial foundation platform. A trench 8 around a monolithic spatial foundation platform 1 is made near it and has a depth of about half the width of the building, in the cross section it can be trapezoidal or stepped narrow in shape with a porous material that absorbs wave energy.

The device operates as follows.

Dynamic impacts caused by seismic or technological factors on the ground are met on their way by a trench 8 of a trapezoidal or stepped narrow shape with a “soft” backfill, for example, porous material, which reduces the level of dynamic impact transmitted

from base 3 to a monolithic spatial foundation platform 1 to the upper structure - a building or structure 7 of a frame or box type. In order for the sliding layer 2 to work, the monolithic spatial foundation platform 1 is made continuous with increased spatial stiffness and a plan size larger than the wavelength at low material consumption, which together provides a wave-suppressing effect. A powerful seismic wave that overcomes friction slides under a monolithic spatial foundation platform 1. In this way, the seismic effect on platform 1 and upper structure 7 is reduced in the form of a building or a frame or box-shaped structure. A monolithic spatial foundation platform 1, combined with the upper building or structure 3 in the form of a building or a frame or box-type structure in a closed system, is capable of perceiving vertical, torsional and other seismic effects.

The execution of trench 8 around the monolithic spatial foundation platform 1, allows to reduce the level of horizontal seismic impact transmitted from the soil to the monolithic spatial foundation platform 1. The sliding layer 2 reduces friction between the monolithic spatial foundation platform 1 and the base 3 and prevents horizontal seismic transmissions to the foundation platform 1 impacts whose power overcomes friction. The monolithic spatial foundation platform provides the conditions for the arrangement and operation of the sliding layer 2 and creates structural safety by enclosing the building or structure 7 with the monolithic spatial foundation platform 1 and the sliding layer 2. This isolation of the whole system of the building or structure 7 on the sliding layer 2 has increased seismic resistance any direction of seismic impact: asymmetric, torsional, inclined, vertical and retains its properties during repeated shocks. Equally important is the convenience of repair work due to possible drawdowns

soil of the base, although these buildings are insensitive to uneven local deformations of the base. Thus, all parts of this device comprehensively interact with each other, help each other and create favorable conditions for the perception of previously unknown and uncertain seismic effects and their repeatability, as well as for repair work.

Feasibility study:

The proposed integrated seismic stability system of a building or structure that works effectively against all types of seismic and dynamic effects includes:

- a trench made in front of the platform, reducing the level of impact transmitted from the soil to the foundation from any type of horizontal seismic effects: asymmetric, torsional inclined, etc .;

- installation on a sliding layer of a monolithic spatial foundation platform, combined with the building installed on it, or construction in a closed system, which reduces friction between the platform and the base and prevents the transmission of horizontal seismic influences to the foundation, the power of which overcomes the friction;

- a monolithic spatial foundation platform provides conditions for the arrangement and operation of the sliding layer and creates constructive safety by enclosing the building with a platform with a sliding layer;

- retains its properties during repeated shocks.

In general, this complex increases the seismic stability and reliability of the construction of buildings or structures on a monolithic spatial foundation platform and ensures the cost-effectiveness of their use even in difficult ground conditions and seismicity.

Claims (2)

1. An integrated system of seismic stability of a building or structure, containing a monolithic spatial foundation platform made of two thin reinforced concrete foundation plates located one above the other, thin plates are monolithically bonded to each other by cross reinforced concrete beams, the space between which is filled with insulation, a sliding slide is installed between the platform and the base layer, characterized in that on a monolithic spatial foundation platform mounted rigidly attached to it or of the structure or box-type frame, which together with the spatial monolithic foundation platform for the sliding layer is combined into an integral multiply system closed type, which, even when disconnected from the base spatial foundation platform with the building maintains its geometric invariability, and around the platform formed trench. 2. The complex earthquake-resistant system of a building or structure according to claim 1, characterized in that the trench around the monolithic spatial base platform is made close to it and has a depth of about half the width of the building or structure, in cross section it can be trapezoidal or stepped narrow in shape with filling with a porous material absorbing wave energy.