RU2542058C1 - Method to reconstruct building or facility - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method to reconstruct a building or a facility includes installation of stiffening cores inside a building or their erection to perceive load from bearing elements of the building or facility carcass. Stiffening cores are installed with a gap in respect to reinforced spans of floors, under which bearing girders are mounted. Girders are fixed in stiffening cores at the depth of at least half of thickness of the appropriate stiffening core perpendicularly to the latter and are connected as fixed with spans. Spans are made in the form of crossbars and floors, or crossbars, or floors. Ends of bearing girders are embedded into stiffening cores.

EFFECT: increased stability of a building.

2 dwg

Description

The invention relates to the field of construction, namely to the strengthening and reconstruction of existing buildings and structures.

A known construction for reinforcing a building during its reconstruction, which describes a method for reconstructing a building or structure by reinforcing them with stiffness cores, comprising installing inside the building or construction of stiffening cores to absorb the load from the load-bearing elements of the frame of a building or structure (see patent RU 114701, class E04G 23 / 02, published on April 10, 2012).

The disadvantage of the described invention is the lack of structures for transferring loads from existing elements of the building frame to the constructed reinforced concrete core stiffness and method of device described structures.

The basis of the present invention is the task to redistribute the loads arising inside the building from damaged elements to the constructed stiffness cores, to increase the stability and seismic resistance of the building or structure, to optimize material costs during the reconstruction of the building or structure in any weather conditions, to shorten the production shutdown during reconstruction.

The problem is solved in that the method of reconstruction of a building or structure, including installing inside the building or construction of stiffness cores to absorb the load from the load-bearing elements of the frame of the building or structure, characterized in that the stiffness cores are installed with a gap with respect to the reinforced span structures of the floors, under which Mounting trusses are mounted, fixed in stiffness cores to a depth of not less than half the thickness of the corresponding stiffness cores, perpendicular to the latter and fixedly connected to Rollets constructs made in the form of crossbars and overlappings or crossbars, or overlap, with the ends of the supports in farms zamonolichivayut kernel hardness.

Since stiffening cores are installed with a gap with respect to the reinforced span structures of the floors under which the supporting trusses are mounted, they are fixed in stiffness cores to a depth of not less than half the thickness of the corresponding stiffness cores perpendicular to the latter and fixedly connected with the span structures made in the form of crossbars and floors , or crossbars, or ceilings, while the ends of the bearing trusses are monolithic in the stiffness cores, the loads arising inside the building from redundant elements to the stiffness cores being erected, the stability and seismic resistance of the building or structure are increased, material costs are optimized during the reconstruction of the building or structure in any weather conditions, and the production shutdown period during reconstruction is reduced.

Figure 1 shows a reconstructed building with a built-in stiffness core and bearing trusses; figure 2 - node connection (pinching) reinforced concrete core rigidity and bearing trusses.

The invention is illustrated by drawings, where Fig. 1 schematically shows a stiffener core 1 located inside a building under reconstruction, the method being implemented includes installing, under a span in the level of floor floors, 4 bearing trusses 2 fixed at a predetermined position in the level of floor floors 4. The ends of the supporting trusses 2 are monopolized perpendicularly to the stiffness cores 1 to a length of not more than half the thickness of the corresponding stiffness cores 1 and are clamped to span structures in the form of crossbars 3 and p recesses 4, or crossbars 3, or floors 4. When erecting a core of rigidity 1, it is placed with a gap to the span structures in the form of crossbars 3 and floors 4, or crossbars 3, or floors 4 and columns 6. Between the vertical load-bearing and enclosing elements of the building or structures for supporting farms establish temporary supports 5.

Figure 2 schematically shows the node supporting the trusses 2 on the walls of the core rigidity 1, where the ends of the supporting trusses 2 are monolithic in the core rigidity 1.

The reconstruction of a building or structure by strengthening them with stiffness cores is carried out as follows.

During technical and engineering-geological surveys, the bearing capacity, physical deterioration of the existing load-bearing elements of the frame of the building or structure, the geological structure of the base soils and their bearing capacity are determined, and then they give recommendations for reconstruction or restoration. According to the recommendations, we determine the location of the stiffness cores 1 in the most damaged or weakened areas of the building. Bearing trusses 2 are brought under the span in the level of interfloor ceilings 4. At the specified level, additional load-bearing elements of trusses 2 are fixed at a predetermined position, and after their location, stiffness cores 1 are erected with a gap to the span structures. In the level of interfloor ceilings 4, the supporting trusses 2 are fixed perpendicularly and pinched to the stiffness cores 1, while the ends of the supporting trusses 2 are monolithic in the stiffness cores 1 to a length of not more than half the thickness of the corresponding stiffness core 1. In addition, the supporting trusses 2 are rigidly connected with the span structures in the form of crossbars 3 and floors 4, or crossbars 3, or floors 4. When erecting stiffener cores 1, they have a gap to the span structures. After a set of concrete, from which the stiffness cores 1 are made, the design strength of the load-bearing trusses 2 is freed from temporary supports 5.

Since the stiffness cores 1 are located inside the building under reconstruction, through the installed supporting trusses 2 they absorb the load from damaged frame elements: crossbars 3, columns 6 and floors 4. Foundations 7 of stiffness cores 1 based on reliable soil, the support reaction of which is not less than the total calculated loads from a building or structure, increase the stability and seismic resistance of the reconstructed building or structure.

The technical result provided by the method of reconstruction of a building or structure is to increase the stability and seismic resistance of the building, optimize material costs during the reconstruction of the building or structure in any weather conditions, reduce the production stoppage period during reconstruction.

Claims (1)

A method for reconstructing a building or structure, including installing inside the building or construction of stiffness cores to absorb the load from the load-bearing elements of the frame of the building or structure, characterized in that the stiffness cores are installed with a gap in relation to the reinforced span structures of the floors under which the load-bearing trusses are mounted, fix them in stiffness cores to a depth of not less than half the thickness of the corresponding stiffness cores perpendicular to the latter and are connected motionless with spans made and in the form of crossbars and ceilings, or crossbars, or ceilings, while the ends of the bearing trusses are monolithic in the stiffness cores.

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