RU2423590C1 - Method to carry out repair and reconstruction works at building facilities with brickwork of outer and inner walls - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method includes reinforcement of brickwork with installation of a system of girder belts, pads and tension bars of helical reinforcement and threaded couplings. During its realisation initially the outer walls are reinforced by drilling of the first group of holes in them at the inner side of the wall for the depth of at least 1/2 of the wall thickness without their outlet to the outer surface of the wall. Then anchor pins are fixed in these holes, and the second group of holes is drilled with larger diameter for the depth of 0.5-0.8 of the wall thickness, where packers are installed, and the brickwork is injected with an injection composition. Then linens of composite materials are adhered onto an inner surface of external walls. Afterwards the brickwork is reinforced in the inner walls of the building by means of injection with an epoxide composition and inner walls surface covering with linens of composite materials, with subsequent creation of a beam belt by means of installation of metal structure elements on beam belts of inner and outer walls at the level of an overlying floor in an above slab and their connection to each other by means of tension bars of helical reinforcement and threaded couplings.

EFFECT: reduced damage of a facing layer and preservation of initial appearance of a repaired facility.

6 cl

Description

The invention relates to the field of construction, and in particular, to the methods used during repair or reconstruction to carry out repair and restoration work on objects with brickwork of the external and internal walls, as well as other supporting structural elements.

There is a method of repairing brick walls in the event of cracks in the walls and loss of the bearing capacity of masonry bricks, which consists in installing screed of strip steel in the upper part of the wall on the outside of the house (see. "Restoring and strengthening building structures of emergency and reconstructed buildings", A. I.Malganov et al., TSNTI, Tomsk, 1990, sheet 130).

The known method is used in the repair or reconstruction of objects with brickwork of the external and internal walls, but with this conduct of work there is a violation of the external appearance of the repaired object. In those cases when the repaired object is subject to protection such as an architectural monument, such a method of repair and restoration work is unacceptable.

Closest to the proposed method in its technical essence is a method of repair and restoration work on construction sites with brickwork of external and internal walls, including reinforcing brickwork by installing a system of beam belts, overlays and cords (see, for example, a.s. USSR No. 918408, 1982).

The disadvantage of this method is the difficulty of conducting restoration and restoration work, especially in cases where the repaired object is subject to protection such as an architectural monument, because the work also involves violation of the upper facing layer. This is also due to the fact that when strengthening the outer walls and the device of the beam belts, it is necessary to work on the device of the furrows in the brick wall, which is already in emergency condition.

The objective of the invention is to create a method of repair and restoration work at the facility without violating its original appearance in the process. The method ensures the preservation of the original appearance of the repaired objects during the full cycle of work to strengthen them.

The problem is solved in that when implementing the method of repair and restoration work on construction sites with brickwork of external and internal walls, including reinforcing brickwork with the installation of a system of beam belts, linings and cords from screw reinforcement and threaded couplings, the external walls are initially reinforced by drilling them in the inner side wall of the first group of holes to a depth of at least _^half the thickness of the walls without entering the outer wall surface. Then, anchor studs are fixed in the drilled holes and the second group of holes of larger diameter is drilled to a depth of 0.5-0.8 wall thickness. Packers are installed in these holes and the brickwork is injected with an injection composition. Canvases made of composite materials are glued onto the inner surface of the external walls to form girder belts along the wall contour, and after these works, the brickwork of the internal walls of the building is strengthened by injection with epoxy and the internal walls are glued with canvases made of composite materials, followed by the creation of the girder belt and the redistribution of the load on the load-bearing elements of the building structure by means of installation at the level of the overlying floor overlap of metal structures on the formed girder belts of the internal and external walls and their connection with each other by tether from screw fittings and threaded couplings.

Since, as a rule, the masonry of the external walls of the object is in a more disturbed state, the initial strengthening of the external walls improves the safety of further work on strengthening the brickwork of the internal walls of the building and the creation of reinforcement belts to redistribute the load forces on the load-bearing elements of the building structure.

It is possible, when implementing the method, gluing the surface of the external and internal walls with canvases made of composite materials in the area of the created reinforcement belt.

It is preferable to use carbon fiber canvases as composites.

It is also possible to use fiberglass canvases as composites.

When implementing the method, it is advisable, after carrying out work to strengthen walls and ceilings, to carry out work to strengthen the arches available at the facility. At the same time, the arches are reinforced by injecting the masonry with a composition that ensures the consolidation of the masonry, for which it is preferable to use injection epoxy resins, apply a layer of plaster on a pre-strengthened mesh of composite material and then install the reinforcing elements of the metal structures. It is advisable to inject the internal walls of building structures with low viscosity epoxy, for example, Epicol Inj epoxy with a viscosity of 100-300 mPa · s at 25 ° C.

The method is as follows.

Initially, engineering and technical surveys are carried out for the project, and then, based on the received data, a detailed design for repair or reconstruction of the object is developed. During the implementation of the project, the brickwork of the external walls is first reinforced.

Since the technical task of the present method is to preserve the external appearance of the object, all work to strengthen the masonry of the outer walls is carried out from their inner side. Then, the brickwork of the external walls is reinforced by strengthening the masonry with anchor studs mounted on the anchor structure. For this purpose, blind holes are drilled in the walls (without their exit to the outer surface of the wall), in which anchor studs are fixed. After such preliminary strengthening of the brickwork of the external walls, holes of larger diameter are drilled to install the packers used for injection of the reinforcing composition into the masonry. These holes are also made without their exit to the outer surface of the wall. Packers are installed in the drilled holes and the injection composition is injected into the brickwork. When implementing the method, an injection composition based on microcements with a low sulfate content can be used, for example, OMNITEK INJECT with a particle size of not more than 12 microns (used in construction (http://www.gortehural.ru/files/file/de Neef. doc)).

After injection, the packers are removed mechanically.

Further strengthening of the brickwork of the external walls is carried out by gluing composite canvases on the inner surface of the wall along the entire length of the formed beam. The technology of using composite canvases for reinforcing building structures has been developed and described in special literature (see, for example, A.A. Shilin et al. “Strengthening Reinforced Concrete Structures with Composite Materials”, Moscow: Stroyizdat, 2004, p.12-17). In this case, the layer of composite canvases glued by means of epoxy resin plays the role of reinforcement and ensures even distribution of tensile loads arising in the brickwork in the area of action of forces from anchor studs installed to a depth of 0.5-0.8 wall thickness and intended for fastening corresponding structural elements of beam belts in the levels of floors.

After strengthening the external walls, the brickwork of the internal walls of the building is strengthened by creating a beam reinforcement belt to redistribute the load forces on the load-bearing elements of the building structure.

To do this, a reinforcement belt is formed at the level of each floor overlap by preliminary reinforcing the brickwork by injecting the brickwork with a consolidating composition and pasting the wall surface with composite canvases in the area of the reinforcement belt being created. Injection is carried out with a low viscosity epoxy, such as "Epicol Inj", which is intended for injection into building structures and is currently widely used in construction (http://www.spr-realty.ru/index20.html).

Then, on the existing ceiling along the walls, the corresponding elements of the metal structures are laid, mainly channels or corners, which are attached to the beam belt formed in the walls by anchors, and then the elements of the metal structures mounted on opposite walls are connected together by means of brackets from screw fittings and hexagonal couplings. When these cords are tensioned, a rigid reinforcement belt is created, finally strengthening both internal and external walls of the object.

If there are arches at the object, after the reinforcement of walls and ceilings, the arches are reinforced, while the arches are reinforced by injecting their masonry with a composition that consolidates the masonry, for example, with an epoxy compound, followed by installation of reinforcing metal structures on the wall surface . These works can be carried out using known technologies using modern injection materials, such as low viscosity epoxy "Epicol Inj"; various viscosity.

The implementation of the invention is illustrated by the example of repair work to preserve the object of cultural heritage - the main building of the Moscow State Conservatory. P.I. Tchaikovsky.

As a result of engineering surveys, it was found that the brickwork of the external walls and internal supporting structures has significant violations as a result of the separation of the masonry and the partial destruction of the bricks. Based on the data received, a working draft for the repair of the building was developed, which included the following work:

- strengthening the brickwork of the external and internal walls of the second, third, fourth floors of the building, as well as the attic and basement arches by injecting them with low viscosity epoxy "Epicol Inj";

- arrangement of cords of round reinforcing steel at the floor level of the second, third floor and attic;

- Reinforcement of brick pillars and brick arches of the basement with metal clips.

Wastes from construction industry, which are formed during the work on strengthening structures, are used in the future as a material for backfill during restoration of the finish. This reduces waste disposal costs.

Carrying out work to strengthen the masonry of the outer walls is carried out from their inner side. Initially, in the masonry of the outer walls, blind holes are drilled with a diameter of 10 mm to a depth of 2/3 of the wall thickness in increments of 1000 × 1000 mm. Steel anchor studs with a diameter of 8 mm are reinforced into the drilled holes on the ChemFix anchor structure. Then, to a depth of 2/3 of the wall thickness in increments of 500 × 500 mm, holes are drilled with a diameter of 32 mm for the installation of packers. For more reliable reinforcement of the masonry, a steel stud with a diameter of 8 mm is immersed in the holes for installing the packers in front of the packer, after which the packer is installed and the OMNITEK INJECT injection compound is injected into the brickwork.

After carrying out the above-described works, the brickwork of the internal walls of the building is strengthened by creating a reinforcement belt with strands made of round reinforcing steel at the floor level of the second, third floor and attic to redistribute the load forces on the load-bearing elements of the building structure.

Masonry is pre-strengthened at the location of the cords. For this purpose, preliminary work is being carried out to identify violations in the masonry, as well as the preparation and cleaning of the places for repair work. Detected cavities are filled with OMNITEK INJECT injection compound, and the joints are restored with Structurite 300 repair material.

Then, packers are staggered into the brickwork and the composition “Epicol Inj” is injected with a viscosity of 300 mPa · s at 25 ° C. Further strengthening of the brickwork is carried out by gluing on the surface of the walls at the level of the location of the strands of carbon fiber canvas "Carbon Fiber". This design works as a single beam belt, since glued carbon-fiber canvases connect part of the reinforced wall into a single structure, providing external reinforcement in the stretched zone of the wall. Along the walls, metal reinforcement elements are laid in the form of channels and corners on the existing ceiling, which are attached to the ceiling and reinforced walls with anchor pins. By means of welding, fastenings from screw fittings and hexagonal couplings are attached to the installed elements of metal structures. The ropes are fastened in increments of 1400-1600 mm.

When these cords are tensioned, a rigid reinforcement belt is created, finally strengthening both internal and external walls of the building.

Since the building has brick pillars and brick arches in the basement, which also need reinforcement, they are reinforced with steel structures. Before carrying out work to strengthen the supports and arches with steel structures, the masonry is preliminarily strengthened by injection of the Epicol Inj compound, and then the steel structures are installed.

The main elements that absorb the load are the corners of 160 × 10, which are installed on top of a carbon fiber mesh in the corners of brick supports and along the contour of the arch of arches. Steel parts are interconnected using manual arc welding. After installation, steel structures are coated with two layers of enamel.

Using the described method allows you to repair a building, which is a monument of architecture, subject to protection, with full preservation of its appearance and interior.

Claims (6)

1. The method of repair and restoration work on construction sites with brickwork of the external and internal walls, including reinforcing the brickwork with the installation of a system of beam belts, overlays and cords from screw fittings and threaded couplings, characterized in that the external walls are initially reinforced by drilling in which the inner side wall of the first group of holes to a depth of at least _^half the thickness of the walls without entering the outer wall surface anchoring in drilled holes of anchor pins with returning the second group of holes of larger diameter to a depth of 0.5-0.8 wall thickness, installing the holes in the second group of packers, injecting the brickwork with the injection compound and then gluing the canvases from composite materials onto the inner surface of the outer walls to form beam belts along the wall contour, and after carrying out these works, the brickwork of the internal walls of the building is strengthened by injection with an epoxy compound and gluing the surface of the internal walls with canvases made of composite materials with the subsequent creation of a beam belt and the redistribution of load forces on the load-bearing elements of the building structure through installation at the level of the overlying floor of the floor of the metal structural elements on the beam belts of the internal and external walls and their interconnection by strands from screw fittings and threaded couplings. 2. The method according to claim 1, characterized in that the bonding of the surface of the outer and inner walls with canvases made of composite materials is carried out in the field of the created reinforcement belt. 3. The method according to claim 1, characterized in that carbon fiber canvases are used as canvases of composite materials. 4. The method according to claim 1, characterized in that fiberglass canvases are used as canvases of composite materials. 5. The method according to claim 1, characterized in that after the work on strengthening the walls and floors, work is carried out to strengthen the arches available on the object, while the arches are reinforced by injecting the masonry with an epoxy compound, applying a layer of plaster on a previously reinforced mesh of composite material and the subsequent installation of reinforcing elements of metal structures. 6. The method according to claim 1, characterized in that the injection of the inner walls is carried out with Epicol Inj epoxy with a viscosity of 100-300 mPa · s at 25 ° C for injection into building structures.