SU1682504A1 - Multi-storey seismically stable building - Google Patents

Abstract

The invention relates to the construction. The purpose of the invention is to increase the reliability and reduce the material consumption of the installation. Seismic insulating elements are installed between the base plate on which the spatial rigid floor construction system is located and the foundation slab. Each of the latter consists of racks placed in a well of composite height, the height of the gap between the parts of which corresponds to the magnitude of the elastic deformations of the racks based on the weight of the building. The parts of the well have base plates rigidly connected to them and, accordingly, with the floor slab and the foundation slab. Racks are made with truncated spherical ends, having a horizontal central portion. The inner walls of the X-paths are provided with protrusions located at the ends of the pillars with a gap relative to the latter. The support plates are interconnected by clamping elements installed on the outside of the well. On racks attached elastic vdayby in the zone of the junction of parts of the well. 3 hp f-ly, 5 ill. (L

Description

The invention relates to the construction, in particular to the construction of multi-storey ground structures in seismic areas.

The purpose of the invention is to increase the reliability and reduce the material consumption of the installation.

FIG. 1 shows a multistory seismic resistant building; in fig. 2 — node I in FIG. one; in fig. 3 - node II in FIG. 2; in fig. 4 is a section A-A in FIG. 2; in fig. 5 - seismic insulating element.

 The multi-storey seismic resistant building contains spatially rigid floors 1 installed on the slab 2 of the ceiling supported on the seismic insulating elements 3 in the form of movable supports 4 arranged in wells 5 with a height 6 with protrusions 6 on the inner walls 7, and clamping elements 8. Each seismic insulating element 3 is provided with support plates 9, one of which is rigidly attached to the slab 2 of the ceiling, and the other - to the slab 10 of the foundation.

The movable supports 4 are made in the form of a system of racks 11 located between the support plates 9 symmetrically with respect to the central axis of the wells 5 and made with truncated spherical C & 00

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Kimi end faces 12, which have a horizontal central portion 13.

Wells 5 are formed by two components 14, arranged with a gap 15 between them and rigidly attached to the supporting plates adjacent to them 9. The projections 6 of the wells 5 are placed at the ends of the pillars 11 with a gap of 16 relative to the latter.

The height of the gap 15 between the components. 14 wells 5 corresponds to the value of the elastic deformations of the struts 1 1 of the weight of the building. „,

The support plates 9 of each seismic insulating element 3 are interconnected by clamping elements 8 located on the outside of the well 5.

A cutting element, which makes it possible to significantly simplify the installation of a multi-storey building, reduce the consumption of materials, ensure high accuracy of manufacturing of seismic insulating elements and their efficient operation.

Claims (4)

1. A multi-storey seismic resistant building, including spatially rigid floors, installed on an overlap plate supported on seismic insulating elements in the form of movable supports located in height-compound wells with protrusions on the inner walls, and extension elements, The pillars 11 are provided with an elastic washer- 2Q and a foundation slab, which are attached to them in the joint zone of the component parts 14 of the well 5. The building is mounted in the following order. On the plate 10 of the basement set seismic insulating elements 3, put on the construction site in assembled form. The elements 3 are laid beams and slabs, which are monolithic in the base plate 9. The base plates 9 are fastened by welding of embedded parts to the slab 2 and the slab 10 of the foundation. Then, assembly of the first floors 1, forming a rigid spatial system, is made. During the earthquake, the foundation is displaced horizontally with the plate 9 and the bottom 14 of the wells 5. In this case, the pillars 11 will deviate at some angle from the vertical axis, significantly reducing the transmission of horizontal seismic impacts to the ground part of the building. By selecting the radius of the spherical part of the ends of the uprights 11, the restoring moment of the seismic insulating element 3 is provided to the initial position. The tensioning elements 8 and elastic washers 17 contribute to the damping of the relative oscillations between the slab 2 of the overlap and the foundation. The invention allows to reduce the geometric dimensions of seismic isolation 25 thirty 35 40 45 50 55 Now with the aim of increasing reliability and reducing the material of the installation capacity, each seismic insulating element is equipped with supporting plates, one of which is rigidly attached to the base plate, and the other to the base plate, and the systems are located between the base plates symmetrically with respect to the central axis of the well and made with truncated spherical ends, having a horizontal central portion, while the well is formed of two component parts arranged with a gap between both of them are fixed and attached to the supporting plates adjacent to them, and the protrusions of the well are placed at the ends of the uprights with a gap relative to the latter. 2. The building according to claim is different in that the height of the gap between the component parts of the well corresponds to the magnitude of the elastic deformation of the pillars from the weight of the building. 3. The building according to claim 1, is distinguished by the fact that the base plates are interconnected with each other clamping elements located on the outer side of the well. 4. Building according to Clause 1, d1 and d a to rn, e e with the fact that the racks are equipped with elastic washers attached to them in the joint zone, making up parts of a well, five 0 five 0 five 0 five Now, in order to increase reliability and reduce the material consumption of the installation, each seismic insulating element is equipped with base plates, one of which is rigidly attached to the ceiling slab, and the other - to the base plate racks located between the support plates symmetrically with respect to the central axis of the well and made with truncated spherical ends, having a horizontal central portion, while the well is formed of two components, arranged with a gap between themselves and rigidly attached to the adjacent base plates, and the protrusions of the well are placed at the ends of the uprights with a gap relative to the latter. 2. Building according to claim. Characterized in that the height of the gap between the component parts of the well corresponds to the magnitude of the elastic deformation of the struts on the weight of the building. 3. Building according to Claim. 1, characterized in that the support plates are interconnected by clamping elements of the tam, located on the outside of the well. 4. Building according to Clause 1, d t1 l and h a torn, e e with the fact that the racks are equipped with elastic washers attached to them in the joint zone, making up parts of the well, 6 g i Јl Ttnft 70SZ89t and / gp & Fy