RU68039U1 - RECONSTRUCTION METHOD FOR BRICK BUILDINGS - Google Patents

Abstract

The invention relates to the field of construction, in particular to repair and construction production and is intended for the reconstruction of buildings and structures with stone (brick) walls.

The invention is aimed at the possibility of a more complete use of the internal space of the reconstructed building; to unload existing brick walls and transfer part of the load from the dead weight of the walls to the frame; increase the stability of the building while increasing operational loads without transferring them to existing walls.

The result is achieved in that in the method of reconstructing brick buildings using the built-in frame located on its own newly erected foundation, including dismantling the structures of partitions, floors and coatings, internal load-bearing walls, erecting a full reinforced concrete frame, according to the invention, the extreme columns and beams are placed directly in the cavity walls, the connection between existing walls and the frame is carried out using anchors, and the voids remaining between the upper edge of the beam and the brick with enoy fill the expanding concrete.

The reconstruction method makes it possible to more fully use the interior of the building; the connections between the column and the wall contribute to the work of the frame and the outer walls as a whole; most of the load is transferred from the walls to and the columns, then to the foundation of the columns.

Description

The invention relates to the field of construction, in particular to repair and construction production and is intended for the reconstruction of buildings and structures with stone (brick) walls.

A known method for the reconstruction of brick buildings using a built-in incomplete frame. An incomplete reinforced concrete frame is performed using precast-monolithic ceilings [application Ru 2003 122 794 A of 02/10/2005]. Flat prefabricated monolithic interfloor overlapping in the cells of the frame is formed by groups of hollow core slabs and longitudinal and transverse monolithic reinforced concrete crossbars hidden within the overlap thickness. The latter in the alignment of the columns and along the perimeter of the wall fencing combine groups of plates into a single disk with rigid nodes and form a cross-beam system, supported on columns in rigid nodes and articulated on the brickwork of the external load-bearing walls of the building and the internal walls of the stairwells.

The disadvantage of this method is that the load from the floor is transferred to the existing brick wall, and for the installation of floor slabs, the use of a crane is necessary.

There is also a method of reconstruction of brick buildings using a built-in incomplete frame, which is a beam system with intermediate supports in the form of columns [Matveev EP Built-in installation during reconstruction // "Housing and communal services", 1996, No. 1, pp. 28-30].

The disadvantage of this method is that the load from the floors is transferred to the existing brick wall locally at the points of support of the beams, in addition, the use of a crane is necessary for the installation of floor slabs.

There is also known a method of reconstruction of brick buildings using combined embedded systems, when the internal load-bearing partitions are made in a monolithic version, and the floors of prefabricated prestressed slabs of extrusion technology [Afanasyev AA, Matveev EP Reconstruction of residential buildings by the method of built-in building systems // "News of universities. Construction.", 1997, No. 9, p. 4-9].

The disadvantage of this method is that it is not applicable for buildings with a complex configuration, as well as the use of heavy-duty cranes for the installation of prestressed plates.

The prototype of the invention is a method for the reconstruction of brick buildings using a built-in full frame, which provides for the creation of a beam or frameless system with a complete transfer of the load on it [Matveev EP Reconstruction: prefabricated monolithic and monolithic embedded systems // "Housing and Public Utilities", 1996, No. 11, pp. 31-34]. The frame can be made in both prefabricated and in a monolithic version.

The described construction does not make full use of the interior of the building due to the presence of columns along the walls and impairs the functional and aesthetic properties of the premises.

The invention is aimed at the possibility of a more complete use of the internal space of the reconstructed building; to unload existing brick walls and transfer part of the load from the dead weight of the walls to the frame; increase the stability of the building while increasing operational loads without transferring them to existing walls.

The result is achieved in that in the method of reconstructing brick buildings using the built-in frame located on its own newly erected foundation, including dismantling the structures of partitions, floors and coatings, internal load-bearing walls, erecting a full reinforced concrete frame, according to the invention, the extreme columns and beams are placed directly in the cavity walls, connection between existing

the walls and the frame are carried out using anchors, and the voids remaining between the upper edge of the beam and the brick wall are filled with expanding concrete.

The invention is illustrated in the drawings. In Fig.1 shows a floor plan of a building, Fig.2 - shows a section of a building in 1-1.

Initially, the structures of partitions, floors and coatings, internal load-bearing walls are dismantled. In this case, the external bearing brick walls 1 are completely preserved. Then, after preliminary temporary fastening of the walls 1, work is carried out to punch niches 2 in them to accommodate the columns 4 and niches 3 to accommodate the floor beams 5. First, the foundation is erected to support the columns 4 and Reinforcing frames are installed (not shown in the drawing). Then mount the formwork of the columns 4, unfasten it in the design position and produce layer-by-layer laying of the concrete mixture with a seal. After the stripping of the columns 4, the formwork of the floors is installed, the working reinforcement is laid and the concrete mixture is filled. After a set of concrete overlapping formwork strengths, the equipment is dismantled and rearranged to the upper tiers with the repetition of the entire technological cycle. Moreover, for the connection of the frame elements and the walls of the building 1, it is necessary to use anchors. When concrete reaches the design grade, brick and mortar are excavated from under the floor beams to the required height, and the resulting gap is filled with elastic material. The voids remaining between the upper edge of the beam 5 and the brick wall 1 are filled with expanding concrete.

The reconstruction method makes it possible to more fully use the internal space of the building, the connections between the column and the wall contribute to the work of the frame and the external walls as a whole; most of the load is transferred from the walls to and the columns, then to the foundation of the columns.

Claims (1)

The method of reconstruction of brick buildings using an integrated frame located on its own newly built foundation, including the dismantling of partition walls, floors and coatings, internal load-bearing walls, the construction of a full reinforced concrete frame, characterized in that the extreme columns and beams are located directly in the cavity of the wall, the connection between the wall and again erected by the frame is carried out using anchors, and the voids remaining between the upper edge of the beam and the brick wall are filled with an expanding tone.