RU2465422C1 - Device to unload stone structures of building and method of its assembly - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: stone structures of a building comprise a slab resting against external walls and an inner vertical bearing structure installed onto a foundation. The device for unloading comprises a metal pillar with a head and a metal beam. The beam is arranged higher than the slab and is fixed to the head and to external walls of the building. The pillar part above the foundation is installed in channels arranged coaxially in the vertical bearing structure and in the slab. The lower part of the pillar is fixed in a cementation pile formed in a vertical wall drilled in the foundation with its entrance into the foundation.

EFFECT: higher efficiency of stone structures unloading with reduction of labour intensiveness of works.

6 cl, 7 dwg

Description

The invention relates to the field of construction, in particular to a device for unloading stone structures of buildings, mainly architectural monuments, during their reconstruction. The invention can be used in the reconstruction of monuments in cases of increased loads on their overlap or reduced load-bearing capacity of stone structures.

A device is known for unloading stone structures and the method of its installation using inclined struts (Bedov A.I. et al. “Design, restoration and strengthening of stone and stone-stone structures.” M., Publishing House ASV, 2008, p. 328, Fig. 7.14 ,in 1).

The disadvantages of the device and installation method of the known solution (1) are: a change in the appearance of the building, in particular the architectural monument, and a significant deterioration in the working conditions of the masonry at the junctions of the struts, due to significant additional local stresses.

The closest analogue to the claimed invention is a device for unloading stone structures, including a vertical printed concrete pile and a metal beam (A. Malganov and others. “Reinforcement of reinforced concrete and stone structures of buildings and structures (Atlas of diagrams and drawings)”, Tomsk, Publishing House Tomsk University, 1989, leaf 74, upper left diagram), (2).

From the same source of information (2), a method for unloading stone structures of a building is known, including a vertical printed pile device and the installation of a metal beam.

The technical result of the invention is to increase the efficiency of unloading stone structures while reducing the complexity of the work.

This technical result is achieved due to the fact that the device for unloading the stone structures of the building, mainly an architectural monument, consisting of a ceiling, supported by external walls and an internal vertical supporting structure mounted on a foundation, consists of at least one metal column with with a head and a metal beam located above the ceiling and attached to the head and to the outer walls of the building, while the foundation part of the column is placed in the channels made by coax but in a vertical supporting structure and in the overlap, and the lower part of the column is fixed in a stuffed concrete pile formed in a vertical well drilled in the foundation with an entry into its base.

The column can be made with a section of a closed profile and filled with concrete along the entire length.

The column may be made with a cross section of an open profile.

The space between the wall of the channels and the column can be filled with low-modulus material.

In addition, the technical result is achieved due to the fact that in the method of unloading the stone structures of the building, mainly an architectural monument, consisting of a ceiling resting on the external walls and on the internal vertical supporting structure mounted on the foundation, they are reinforced before unloading the stone structures, after which, in the ceiling and in the internal vertical supporting structure, channels are run to the level of the foundation, then a well is drilled through them in the foundation with a stop in its base for the formation of a stuffed concrete pile, while before the concrete hardens, the lower part of the metal column is passed through channels in the ceiling and the internal vertical supporting structure and immersed in the printed pile, after the concrete has hardened, the piles are installed and attached to the walls of the building so that a gap is formed between the lower edge of the beam and the supporting surface of the column head, then the beam is deformed until the gap is eliminated, in this position it is attached to the head and the defo miruyuschee impact.

Reinforcement of stone structures can be performed by installing removable elements.

The invention is illustrated by drawings, where: in Fig.1 shows a section of a building, at the location of the device for reinforcing stone structures; figure 2 - node 1 in figure 1; figure 3 - node 2 in figure 1; figure 4 - section 1-1 in figure 3 with a variant of the use of columns having a tubular section; figure 5 - section 1-1 in figure 3 with the option of using columns having an I-section; figure 6 - node 3 in figure 1; Fig.7 - shows the gap between the lower edge of the beam and the supporting surface of the tip during installation of the device.

An example of the implementation of the invention can serve as a device that allows for the unloading of stone structures of the building of the architectural monument, a section of which is shown in figure 1. The stone structures of the building consist of a ceiling (1) resting on the external walls (2) and on the internal vertical supporting structure in the form of a central pillar (3) installed on the foundation (4). The device consists of a metal column (5) with a head (6) and a metal beam (7) located above the ceiling (1) and attached to the head (6) and to the outer walls of the building (2), while the base part of the column is placed in the channels (8), made in a vertical supporting structure (3) and in the overlap (1) coaxially, and the lower part of the column is fixed in a printed concrete pile (9), formed in a vertical well drilled in the foundation (4) with an entry into the foundation foundation ( 10).

In the considered example, the device provides unloading of vaulted stone floors (1), stone central pillar (3), as well as the foundation (4). With an increase in the external load on these stone structures, for example, in the case of re-equipment of the premises of the second floor, strengthening the structure by installing additional elements can significantly change the appearance of the monument. Under these conditions, unloading of structures seems to be most effective and is carried out as follows. Preliminary reinforcement of structures is carried out according to a temporary scheme, using removable reinforcing elements: metal clips - for stone pillars, circles - for vaulted ceilings, etc. or according to a permanent scheme, for example, using injection methods to restore the structural integrity of elements. Then, in the overlap (1) and in the internal vertical supporting structure (3), channels (8) are made to the foundation level, then wells are drilled through them in the foundation (4) with an entry into the foundation foundation (10) to form a stuffed concrete pile ( 9), while before hardening the concrete, the piles the lower part of the metal column (5) is passed through the channels (8) and immersed in the stuffed pile (9), after hardening the concrete, the piles lead the installation and attachment of the metal beam (7) to the walls of the building (2) so that between the lower edge of the beam (7) and the supports th column tip surface (6) formed gap Δ. Next, the beam is deformed until the gap is eliminated, for example, by loading it. In the curved position, the beam (7) is attached to the head (6). After this, the load is removed.

The proposed invention can be used to unload or redistribute the forces between the elements of stone structures. The technical solution is very relevant for the restoration and re-equipment of architectural monuments, as allows to preserve the structural elements of the monument as much as possible while increasing the loads acting on them.

Claims (6)

1. A device for unloading stone structures of a building, mainly an architectural monument, consisting of a ceiling supported by external walls and an internal vertical supporting structure mounted on a foundation, characterized in that it consists of at least one metal column with a head and a metal beam located above the ceiling and attached to the head and to the outer walls of the building, while the supra-base part of the column is placed in channels made coaxially in a vertical carrier Design and overlap, and the lower part of the column is fixed in a packed concrete pile formed in a vertical well, drilled in the foundation with its base in the stope. 2. The design of the device according to claim 1, characterized in that the column is made with a cross section of a closed profile and is filled with concrete along the entire length. 3. The design of the device according to claim 1, characterized in that the column is made with a cross section of an open profile. 4. The design of the device according to claim 1, characterized in that the space between the wall of the channels and the column is filled with low-modulus material. 5. The method of unloading stone structures of a building, mainly a monument of architecture, consisting of a ceiling supported by external walls and an internal vertical supporting structure installed on a foundation, characterized in that before unloading the stone structures they are reinforced, after which they are reinforced in the ceiling and inside channels of the vertical supporting structure are run to the level of the foundation, then a well is drilled through them in the foundation with an entry into its base to form stuffed concrete piles, while before hardening the concrete piles, the lower part of the metal column is passed through the channels in the ceiling and the internal vertical supporting structure and immersed in the printed pile, after hardening the concrete piles, the metal beam is installed and attached to the walls of the building so that between the lower face of the beam and a clearance is formed on the supporting surface of the column head, then the beam is deformed until the gap is eliminated, in this position it is attached to the head and the deforming effect is removed. 6. The method of unloading according to claim 5, characterized in that the reinforcement of the stone structures is performed by installing removable elements.

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