RU2644803C1 - Connecting element for units of earthquake-resistant building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the technology of erecting earthquake-resistant structures. Connecting element for the units of an earthquake-resistant structure consists of an elastic cylindrical body with mounting discs fixed to its ends, and the cavity of the cylindrical body is filled with damping material. Body is made of two flanged, oppositely disposed and coaxial cylindrical threaded bushes with mounting discs rigidly attached to their end part. On the mounting discs the elements for thread joint of bushes into the single cylindrical body are configured. Body is made of elastic material, for example, spring steel with elastic properties, and its cavity is filled with damping material, for example, vibro-damping mastic compound of "VD-17" type. Within the elastic cylindrical body an elastic core is coaxially located; along the axis of the core the damping disks are rigidly fixed along the entire length of the cavity, and the outer discs are fastened to the mounting discs made of vibro-damping material; in the cavities between the disks there are helical coil springs. Mounting discs rigidly attached to the flanged oppositely disposed cylindrical threaded bushes are made of a combination of at least three layers: the outer ones are rigid, and the third layer, arranged between them, is damping. At least three elastic rods of less rigidity than that of the elastic core are placed inside the elastic cylindrical body coaxially to the elastic core. They are fixed in the damping disks in such a way that their external surfaces touch the inner surfaces of the helical coil springs.

EFFECT: increase the effectiveness of seismic resistance due to the spatial protection from seismic waves by introducing each unit into a single earthquake-resistant structure by means of connecting damping elements.

1 cl, 6 dwg

Description

The invention relates to techniques for the construction of earthquake-resistant structures.

The closest technical solution to the claimed object is the design according to patent RU No. 2537421, Е04С 2/04, containing a system of blocks and connecting elements connected to a single structure.

A disadvantage of the known design is the impossibility of building block structures with increased seismic resistance due to the lack of spatial protection from seismic shock and oscillatory processes.

EFFECT: increased efficiency of seismic resistance due to spatial protection from seismic waves by introducing each unit into a single seismic resistant structure by means of connecting damping elements.

This is achieved by the fact that in the connecting element for blocks of an earthquake-resistant structure, consisting of an elastic cylindrical body with mounting discs fixed at its ends, the cavity of the cylindrical body is filled with damping material, the body is made of two flange, opposite and coaxial cylindrical threaded bushings, with mounting disks rigidly attached to their end part, on which elements for threaded connection of bushings into a single cylindrical body are made made of an elastic material, for example, of elastic spring steel, the cavity of which is filled with a damping material, for example, a vibration-damping mastic of the “VD-17” type.

In FIG. 1 shows a general structural diagram of the connection of blocks of an earthquake-resistant structure, in FIG. 2 is a general diagram of a connecting element in a perspective view, in FIG. 3 - 6 - variants of the circuits of the connecting element.

The connecting element (Fig. 3) for blocks of an earthquake-resistant structure (Fig. 1) is installed in prepared holes made in blocks, and the blocks are alternating in a row: one block is made with spikes at the ends, and the other with grooves, while the blocks are connected by connecting elements into pre-prepared and coaxially located holes.

The connecting element (Fig. 2) consists of two flange, opposite and coaxial cylindrical threaded bushings 5 and 6 with mounting discs 1 and 2 rigidly attached to their end part, on which elements are made for threaded connection of 4 bushings into a single cylindrical body 3, for example, turnkey flats (not shown).

The connecting element is made damping, consisting of an elastic cylindrical body 3 (Fig. 3) made of an elastic material, for example, spring elastic steel, the cavity of which is filled with damping material, for example, VD-17 type vibration damping mastic.

A possible embodiment (Figs. 2 and 4) of a connecting element with a cylindrical tubular damping element 7 coaxially and coaxially located inside the housing 3, consisting of a cylindrical shell with bases 8 and 9, made of a rigid elastic vibration-damping material, for example, such as "Agate", internal the cavity 12 which is filled with damping material, such as sand, or vibration damping mastic type "VD-17". The inner cavity 11 of the connecting element between the cylindrical body 3 and the outer surface of the cylindrical shell of the cylindrical tubular damping element 7 is filled with a less rigid vibration damping material, for example polyurethane.

A possible embodiment of a connecting element for blocks of an earthquake-resistant structure is when the mounting discs 1 and 2 are rigidly attached to the flange, opposite, cylindrical threaded bushings 5 and 6, are combined, consisting of at least three layers: the outer ones are rigid and the third the layer located between them is made damping.

The connecting element for blocks of earthquake-resistant structures works as follows. During seismic vibrations, the displacement of blocks interconnected by connecting elements occurs, which leads to elastic deformation of their elastic cylindrical body 3 made of an elastic material, the cavity of which is filled with damping material, which leads to a decrease in the vibrations of the blocks even in resonant modes of seismic or vibrational effects. In this case, the blocks, due to the damping of vibrations by the connecting elements, maintain the integrity of the structure.

A variant (Fig. 5) of the connecting element for blocks of earthquake-resistant structures is possible, when an elastic core 14 is coaxially located inside the elastic cylindrical body 13, damping disks 15 are rigidly fixed along the entire length of the cavity, while the extreme disks are fixed with installation disks 1 and 2 of vibration damping material, while helical coil springs 16 are located in the cavities between the disks.

A variant is possible (Fig. 6) when at least three elastic rods 17 of lesser stiffness than the stiffness of the elastic core 14 are located coaxially to the elastic core 14, inside the elastic cylindrical body 13, which are fixed in the damping disks 15 so that their outer surfaces touch internal surfaces of coil springs 16.

Claims (1)

A connecting element for blocks of an earthquake-resistant structure, consisting of an elastic cylindrical body, with mounting discs fixed at its ends, while the cavity of the cylindrical body is filled with damping material, characterized in that the body is made of two flanged, opposed, and coaxial cylindrical threaded bushings with rigid mounting disks attached to their end part, on which elements are made for threaded connection of the bushings into a single cylindrical body, made h of an elastic material, for example, of elastic spring steel, the cavity of which is filled with damping material, for example, VD-17 vibrodamping mastic, and inside the elastic cylindrical body there is a coaxial elastic core along the axis of which damping disks are rigidly fixed along the entire length of the cavity, while extreme disks are fastened with mounting disks made of vibration-damping material, while in the cavities between the disks there are coil springs, mounting disks rigidly attached to atsev, opposite, cylindrical threaded bushings are made combined, consisting of at least three layers: the outer ones are rigid, and the third layer located between them is made damping, while coaxially to the elastic core, at least inside the elastic cylindrical body three elastic rods of lower stiffness than the stiffness of the elastic core, which are fixed in the damping disks in such a way that their outer surfaces touch the inner surfaces of the screws x coil springs.

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