RU2120009C1 - Method for rebuilding multistoried residential building - Google Patents

Abstract

FIELD: construction. SUBSTANCE: method includes superstructural and adding new stories. Additional foundation supports and columns are erected at a distance from 2.5 to 7 m. Building old members are joined with new members of ceilings of built-in structure from fabricated reinforced concrete members clamped by prestressed reinforcement. For this purpose, made in old wall from outside are blind sockets to receive reinforced concrete bearing members. Pulled through holes in columns and bearing members is reinforcement which is tightened and anchored to bearing members and columns. In mounting of loggias, balcony slabs with bearing members are installed, reinforcement is passed through holes and anchored. Then stories of superstructure are erected. EFFECT: simplified work of rebuilding, reduced labor input in mounting and simultaneous extension of building and superstructural with uniform distribution of load on existing and additional foundation. 3 cl, 4 dwg

Description

 The invention relates to the field of construction and can be used in the reconstruction of, for example, five-story residential buildings by the addition and superstructure of new floors. There is a method of building superstructure, including the construction of new floors, based on existing walls without reconstruction of foundations, for the construction of new floors inside the building, foundation plates with embedded structures and support beams are installed [1].

 The disadvantage of this method is the high complexity due to the need to use a crane economy of large capacity.

 The closest technical solution is the method of reconstruction of a large-panel residential building, which consists in increasing the number of floors by performing a 1.0 m widening on each side, by installing single-span frames while keeping the design of the existing building unchanged, and the number of floors is increased on independent load-bearing structures embracing existing building [2].

 The disadvantage of this solution is the complex technology for the construction of new floors, due to the need to install metal frames on pylons, grillages and piles, as well as the limited size of the extension.

 The technical task of the invention is to simplify the production of work, reduce labor costs for installation and the ability to simultaneously expand the building and superstructure with a uniform distribution of the load on the existing and additional foundations.

 The problem is solved in such a way that in the method of reconstructing a multi-storey residential building, including installing additional foundation supports and erecting columns, installing new floors of the extension and superstructure with their support on additional columns, followed by combining old building elements with new ones, according to the invention, combining old house elements with new ones, they are produced by installing the ceilings of the extension of prefabricated reinforced concrete elements, crimped by prestressed reinforcement between the additional columns and a hollow wall of the building, for this, at the level of the existing ceiling, previously in the old wall from the outside with a step equal to the step of the additional columns, blank slots are arranged and reinforced concrete supporting elements with through holes, coaxial holes in the columns to accommodate prestressed reinforcement are placed in them, after which on temporary supports, reinforced concrete floor elements are laid out, between which tensioned reinforcement is placed, passing it into the holes of reinforced concrete supporting elements and columns and anchoring on supporting element, and carry out the tension of the reinforcement. In this case, after voltage, the reinforcement is anchored on the column. In addition, during the installation of the ceiling, a balcony slab is installed, and a reinforced concrete support element is placed at its end, through which the reinforcement is pulled through the holes, and after tensioning, the reinforcement is anchored on the reinforced concrete support element.

 The proposed method differs from the known one in that the connection of old elements of the house with new ones is done by installing ceilings and superstructures - due to the uniform redistribution of the loads of the built-in part on old and new supports and foundations. In addition, the proposed method differs from the known sequence of installation of the extensions of the annex using additional supporting reinforced concrete elements placed on the outside of the walls of the reconstructed building to tension the reinforcement, which makes it possible to reduce the complexity of the construction of the extension by simplifying installation work. In addition, the proposed method of mounting the extensions of the extension allows you to arrange loggias at the level of floors.

 The method is illustrated by drawings. In FIG. 1 shows a structural diagram of a building; in FIG. 2 - node A of FIG. one; in FIG. 3 - node B of FIG. one; in FIG. 4 - assembly B of FIG. one.

 The method is carried out in the following sequence.

 During the reconstruction of building 1, at a distance of 2.5 to 7.0 m from the old foundations 2 and walls 3, new foundations 4 are installed in increments and columns 5 are erected. After that, the extensions of the outbuildings made of prefabricated reinforced concrete elements 6, compressed by prestressed reinforcement 7 between additional columns 5 and wall 3 of the old building 1. On this day, at the level of the existing ceiling 8 in the old wall 3, from the outside with a step equal to the step of the additional columns 5, blank jacks 9 are arranged and reinforced concrete support elements 10 are placed in them with a through openings, coaxial openings in the columns 5 to accommodate the prestressed reinforcement 7, after which reinforced concrete elements of the floor 6 are laid out on temporary supports (not shown), between which the prestressed reinforcement 7 is placed and passed into the holes of the reinforced concrete supporting elements 10 and columns 5 and anchored to supporting element 10 using anchor 11. Then, the reinforcement is tensioned from the side of the column 5 and anchored with anchor 11. When installing the loggias, previously on temporary supports, at the level of the ceilings 6, folding dissolved balcony slab 12 of reinforced concrete and the support members 10, which are passed through the holes 7 and tendon zaankerivayut. After that, the floors of 13 floors of the superstructure are mounted with their support on the columns 5.

Sources of information
1. Copyright certificate N 1789632 A1, cl. E 04 23/00, BI N 3, 1993.

 2. Copyright certificate N 2043464 C1, cl. 6 E 04 B 1/02, BI N 25, 1995.

Claims (3)

 1. The method of reconstruction of a multi-storey residential building, including the installation of additional foundation supports and construction of columns, installation of new floors of the extension and floors of the superstructure with their support on additional columns, followed by the combination of old building elements with new ones, characterized in that the connection of old elements of the house with new ones by installing the ceilings of the extension of prefabricated reinforced concrete elements, compressed by prestressed reinforcement between the additional columns and the wall of the old building, for this at the level of the existing ceiling, previously in the old wall from the outside with a step equal to the step of the additional columns, blank sockets are arranged and reinforced concrete supporting elements with through holes are placed in them, coaxial holes in the columns to accommodate prestressed reinforcement, after which reinforced concrete floor elements are laid out on temporary supports, between which place the prestressing reinforcement, passing it into the holes of the reinforced concrete support elements and columns, and anchoring on the support element, and carry out the tension e reinforcement, after which the erection of the floors of the setting is performed.  2. The method according to p. 1, characterized in that after tensioning the reinforcement anchor on the column.  3. The method according to p. 1, characterized in that during the installation of the ceiling, a balcony slab is installed, and after tensioning, the reinforcement is anchored on a reinforced concrete supporting element located at the end of the balcony slab.

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