SU1701846A1 - Multistory building - Google Patents

Abstract

The invention relates to multi-storey buildings. The purpose of the invention is to increase spatial rigidity and reduce metal consumption and labor intensity of installation. The stiffening core is made of prefabricated vertical wall elements, between which the jumper blocks are placed with an inward stiffening core and forming niches and supporting platforms inside the perimeter of the latter outside to support the structures of the stairs and elevators. In the niches reinforcement releases of floor slabs and vertical wall elements are placed. The connecting reinforcing bars and homogeneous concrete. 3 il.

Description

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WITH

The invention relates to the construction and can be used in the construction of multi-storey buildings, erected by the method of lifting floors and floors.

The purpose of the invention is to increase spatial rigidity and reduce metal consumption and labor intensity of installation.

FIG. 1 shows a fragment of a multistory building; in fig. 2 — node I in FIG. one; in fig. 3 shows section A-A in FIG. 2

A multi-storey building includes foundations (not shown in the drawings), columns 1, core 2 stiffness and floor slabs 3. The core of stiffness is made of prefabricated vertical wall elements 4 and cross-section blocks 5 that are installed between the wall elements 4 of each floor and are offset inside the core stiffness 2, the image along its perimeter niche 6 and support

7 platforms for supporting structures 8 stairs and elevators.

In the niches 6, the weldings of the 9 wall elements 4, the brackets 10 of the floor slabs 3 and the reinforcing bars 11, passed into the brackets 10, are joined by the welding bath. The niches 6 are monolithic with concrete.

The method of erection of a multistory building includes installation of foundations, installation of columns 1, installation of the first floor of a rigidity core 2, and manufacture of a package of floor slabs 3. Then, a further installation of a core of rigidity ahead of the lifting of floor slabs 3 is carried out and installed as blocks between wall elements 5 with their displacement inside the stiffening core, as a result of which niches 6 and supporting platforms 7 are formed along the entire perimeter of the stiffening core. When lifting the floor slabs 3 and they reach the project mark,

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The rigidity core located in the niche zone, and the joining of the wall elements 4 to the floor slabs 3 by means of bathtub welding of the rebar 9, brackets 10 and the reinforcing bars 11, followed by the monolithing of the niches with concrete.

The invention makes it possible to optimally distribute the loads from the floor slabs 3 on the columns 1 and on the core of rigidity 2, to reduce the consumption of reinforcement on the supporting structures and to increase the spatial rigidity of the building.

Claims (1)

Claims of the invention. Multi-storey building, including foundations, columns, installed around the core of rigidity, and placed inside 0 five The last design of the stairs and elevators, characterized in that, in order to increase spatial rigidity and reduce metal consumption and laboriousness of installation, the core stiffness is made of wall elements and bridging blocks located between the latter and offset relative to them the perimeter of the latter and the supporting platforms inside it for support | Neither the structures of the stairs and elevators, and the floor slabs and wall elements are interconnected by means of reinforcement and bars placed in the niches of the core stiffness and rendered monolithic concrete. 1 Aa