RU169131U1 - DEVELOPMENT OF STRENGTHENING STONE ROOF VALVES OF THE BUILDING - Google Patents

Abstract

Use: in construction. Purpose: to increase the efficiency of technical solutions for strengthening stone vaulted floors of a building. The essence of the utility model: strengthening vaulted stone floors of a building is to introduce reinforcing material based on unidirectional composite fibers into the arch structure. The device takes into account the actual design of the structure. The stone vaulted ceiling on the upper in the heel and lower in the area of the slit has gates. The ends of the strobe in the zone of "zero moment" are connected by a hole in the arch. The strobe surfaces are coated with a primer and filled with adhesive (adhesive). In the gates there is a reinforcing element that passes through the entire arch without gaps and overlaps. 3 ill. As a reinforcement of a stone vaulted ceiling of a building, composite materials based on unidirectional carbon, glass or aramid fibers in the form of smooth or corrugated reinforcement, wire, ropes, strands can be used.

Description

The design (device) of reinforced stone vaulted ceilings refers to the field of construction and can be used to strengthen stone vaulted ceilings of buildings.

There is a technical solution for strengthening vaulted ceilings of buildings with load-bearing beams supported on walls, and self-supporting or non-bearing arches. This technical solution is made by means of reinforced concrete reinforcing elements placed on both sides of the beam and connected to it by means of stops installed on the lower edge of the beam. The working reinforcement of the reinforced concrete element is made pre-stressed, in the form of truss ties, fixed at the ends on the outer surface of the walls with the possibility of voltage regulation. Holes were made in the thickness of the arch for the passage of rod anchors equipped with tensioning devices and grips. In this case, the working reinforcement is connected by means of sliding ties with rod anchors, or with stops and anchors. (IPC Patent E04G 23/00 RF N 2036290, 1995.)

The disadvantage of this technical solution is that the load on the foundation increases from the dead weight of the floor, since the thickness of the vaulted floor increases significantly.

It is also known a technical solution for strengthening the vaulted floor of a building, including a reinforcing reinforced concrete element supported on walls, and radial rod anchors passed through openings made in the arch. (Methodical recommendations of the All-Union Scientific-Industrial-Professional Association “Union Restoration". The Ministry of Culture of the USSR. M. 1989, p. 164).

The disadvantage of this technical solution is to increase the load on the reinforced arch during work, which causes additional force of the horizontal spread transmitted to the walls and can lead to collapse of the ceilings. In this regard, it becomes necessary to implement an additional system for temporary strengthening of load-bearing wall structures, which in turn also significantly increases material consumption.

The prototype of the proposed device for strengthening stone vaulted ceilings is the strengthening of vaulted ceilings by means of an external reinforcement made of composite polymer materials (Derkach V.N., Belov V.V. Examination and technology for strengthening stone structures // Engineering and Construction Journal. - St. Petersburg. , 2010, No. 7. - S. 14-20).

http://engstroy.spbstu.ru/index_2010_07/derkach_kamen.pdf

The disadvantages of this method is that to ensure anchoring a significant amount of additional material is expended, which significantly increases the consumption of materials.

The proposed device is aimed at increasing the bearing capacity of the stone vaulted floors of the building.

The result is achieved by the fact that reinforcing material based on unidirectional composite fibers is introduced into the construction of the stone vaulted floor of the building, thereby the device takes into account the actual scheme of the structure, according to the technical solution, the stone vaulted ceiling has gates on the upper in the heel and lower in the area of the crack the ends of these strobes in the zone of "zero moment" are connected by an opening in the arch, the surface of the strobes is coated with a primer and filled with adhesive (adhesive), in the strobes reinforcing element extending through the entire set without gaps and overlaps.

The result is achieved in that in the design of the stone vaulted floor of a building with reinforcement, composite materials based on unidirectional carbon, glass or aramid fibers in the form of smooth or corrugated reinforcement, wire, ropes, strands are used.

The result is also achieved by the fact that the rods mounted on the lower surface of the arch are located in the strobes, which ensures the required fire resistance of the structure and also allows it to maintain its original appearance.

The result is also achieved by the fact that the reinforcing element from the strobes passing along the upper surface passes in the stroba on the lower surface directly through the hole.

The result is also achieved by the fact that the reinforcing element is located in those areas of the structure that require reinforcement, thereby minimizing engineering intervention in it, which also significantly reduces the material consumption of the reinforcing elements.

The device is illustrated in the drawings of FIG. 1 is a view A in FIG. 2; FIG. 2 is a cross-sectional view of a vaulted ceiling device BB in FIG. one; FIG. 3 is a section AA and BB in FIG. 2.

The reinforcement scheme of the stone vaulted ceiling of the building includes upper gates 1 and lower gates 2, which are connected by a hole 3 in the body of the stone vault 4, the gates are coated with a primer layer 5 and filled with adhesive 6. A reinforcing element 7 is located in the adhesive. The finishing layer 8 is applied to the adhesive.

Claims (4)

1. The device of the stone vaulted ceiling of the building, which consists in increasing the bearing capacity by introducing reinforcing material based on unidirectional composite fibers into the body of the reinforced structure, characterized in that the stone vaulted ceiling on the upper in the heel and lower in the area of the slit has gates, with the ends of these strobes in the “zero moment” zone are connected by a hole in the arch, the surface of the strobes is coated with a primer and filled with adhesive (adhesive), in the strobes there is a reinforcing element dyaschy through the entire set without gaps and overlaps. 2. The device according to p. 1, characterized in that the reinforcing element is immersed in the design of the arch. 3. The device according to p. 1, characterized in that the rod of the strobes passing along the upper surface, enters the stroba on the lower surface directly through the hole. 4. The device according to claim 1, characterized in that composite materials based on unidirectional carbon, glass or aramid fibers in the form of smooth or corrugated reinforcement, wire, ropes, strands are used as a reinforcing element.

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