RU1794142C - Earthquake-proof support - Google Patents

Abstract

Usage: the construction of buildings in seismic areas. SUMMARY OF THE INVENTION: A seismically insulating support comprises upper and lower support blocks and swing posts. The supporting blocks are made with a central protrusion. The surfaces of the blocks facing each other are made horizontal and are located with a gap relative to each other. Racks are installed between the support blocks on opposite sides of the protrusions. The ends of the uprights and the surface of the blocks in the areas of contact with the uprights are made with embedded parts. Each end of the strut is connected to the support block by a latch. The latch is made in the form of a bracket. The bends of the bracket face the axis of the strut and are attached to the embedded parts of the strut and support block. 1 C.p. f-ls, 3 ill.

Description

The invention relates to the construction, in particular the construction of large-panel multi-storey buildings and can be used in the construction of buildings in seismic areas.

An earthquake-resistant building is known with spatially rigid upper floors supported on horizontally flexible lower floor racks with spherical ends at the ends, the upper of which are connected to hard floors, and the lower ones to the foundation.

A disadvantage of the known solution is the complexity of manufacturing the parts of the support with spherical ends, as well as the difficulty of assembling the support at the construction site.

Closest to the proposed solution is a prefabricated seismic insulating support of the building, including a support block with a glass made with inclined walls, a rack installed in the glass with the possibility of swinging, a damper and an upper support element, supported on the upper end of the rack and rigidly connected to the supporting structure buildings.

However, the known design has a number of drawbacks, the main of which is the multiplicity of the design, the complexity of manufacturing the support parts and their installation in the support with the necessary clearances, as well as the high complexity of mounting the entire support carried out at the construction site.

The purpose of the invention is to reduce labor costs in the manufacture and installation of the support.

The goal is achieved in that in a seismic isolating support, including a swinging rack with embedded parts at the ends and upper and lower supporting blocks placed at the ends of the rack with embedded parts in contact areas with

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each unit is made with a central protrusion, and the surfaces of the protrusions facing each other are horizontal and are spaced with respect to each other, the support being provided with an additional swinging stand with embedded parts at the ends, the main and additional racks are installed on opposite sides of the protrusions and their ends are connected to the support blocks by clamps.

The latch is made in the form of a bracket, and the bends of the bracket are turned to the axis of the rack and are attached. To the embedded parts of the rack and the support block.

Figure 1 shows a seismic insulating support, general view; figure 2 is also a side view; Fig. 3 illustrates the junction of the strut with support blocks.

The seismic insulating support comprises lower 1 and upper 2 support blocks made with a central protrusion 3 and depressions 4, the surfaces of the protrusions facing each other are made horizontal. Between the depressions 4 of blocks 1 and 2, the main and additional components are installed on the swinging racks b with embedded parts 6 at the ends of the racks / The embedded parts 6 are made with a protrusion 7, and the supporting blocks 1 and 2 in the sections of contact with the racks have embedded parts 8. Racks 5 are connected to the supporting blocks using clamps 9, made in the form of a bracket. A gasket 10 is installed between the horizontal planes of the protrusions 3 of both support blocks.

The formation of a seismic isolating support (all its parts) is carried out in one form. The contact of the struts 5 with the lower 1 and upper 2 supporting blocks occurs in the plane of contact of the protrusions 7 of the embedded parts of the columns 5 with the embedded parts 8 of the supporting blocks. .

To the embedded parts m. 6 of the racks 5 and custom parts 8 of the supporting blocks 1 and 2, part of their horizontal shelves are welded by the clamps 9, installed so that the bends of the brackets are facing the axis of the rack 5. A gasket 10 made of a measured non-metallic strip, having installed - you pour the mold so that it fills the gap between the horizontal surfaces of the protrusions 3 of the support blocks.

The molded seismic isolating support is assembled transported to the construction site. At the same time, to protect the structure during transportation, the racks and support blocks can be additionally connected by patch links, which are cut off when the support is installed. The gasket 10 is removed after installation of the support. Installed under the building seismic isolation support works as follows. Under the action of a seismic load on the building, the lower support block 1 moves and the struts 5 connected to it oscillate within the limits of the elasticity of the latches 9. The upper support block 2, supported by the protrusions 7 of the upper end of the struts 5, is interfaced with the building and seismic isolates it.

In the event of a collapse of the strut 5 due to unforeseen strong earthquake or as a result of poor manufacturing of parts of the seismic isolating support, the latter must retain its bearing capacity for vertical and horizontal loads. When the racks 5 are destroyed, the lower 1 and upper 2 support blocks come into contact and select the set design clearance between the protrusions 3. As a result, dry friction forces arise between the support blocks equal to the product of the load on the support and the coefficient of friction of concrete on concrete. These friction forces prevent large movements of the building, and dissipate the energy of vibration of the building.

The use of a seismic insulating support will reduce labor costs in the manufacture of the product, since it will be molded assembled in one form, while the product can be made with a controlled gap between the protrusions of the support blocks of the required size, labor costs for installation of the support, delivered to the construction site in assembled, are also reduced. form.

The use of a seismic isolating support will make it possible to use non-seismic-type panel buildings in seismic areas (conventional block sections), as well as block sections made for areas with low seismicity, in areas with higher seismicity ..

Claims (2)

SUMMARY OF THE INVENTION 1. A seismic isolating support comprising a swing stand with embedded parts at the ends and upper and lower support blocks placed at the ends of the stand at contact areas with the stand, characterized in that, in order to reduce labor costs in manufacturing and installation supports, each block is made with a central protrusion, moreover, the surfaces of the protrusions facing one another are horizontal and are positioned with a gap relative to one another, the support being provided with an additional swinging a stand with embedded parts at the ends, the main and additional stands are installed on opposite sides of the protrusions and their ends are connected to the support blocks by clamps. 2. The support according to claim 1, with the fact that the latch is made in the form of a bracket, the bends of the bracket face the axis of the rack and are attached to the embedded parts of the rack and support block.