RU90100U1 - STRUCTURE REINFORCEMENT CONSTRUCTION ZONE OF REINFORCED REINFORCED CONCRETE MULTI-HOLE PLATE - Google Patents

Abstract

1. The reinforcement design of the stretched zone of the precast multi-hollow concrete slab, including reinforcing steel puffs and their fastening elements, which are placed in vertical holes formed in the slab, characterized in that the puffs are placed in the slots of the slab from the side of its stretched zone, and each fastening element the puffs are made in the form of a corner and an abutment rigidly interconnected, while the horizontal shelf of the corner interacts with the outer surface of the plate from the side of its compressed zone, and the emphasis is provided with a groove through which th omitted tightening end rigidly fixed to the abutment, for example by a threaded connection. ! 2. The construction according to claim 1, characterized in that the puffs are made of reinforcing bars or reinforcing ropes.

Description

The utility model relates to construction, in particular to reinforcement structures of the stretched zone of precast multi-hollow concrete slabs.

A known reinforcement design of the stretched zone of a precast multi-hollow concrete slab, including additional reinforcement, which is placed and monolithic with polymer solution in grooves made in the stretched zone (see Matveev EP, Meshechek VV “Strengthening and thermal protection of structures of civil buildings (technical solutions ). ”M., OJSC“ TsPP ”, 2007, p. 97, lower left figure).

The main disadvantage of the described construction is that for the installation of additional reinforcement, it is necessary to pre-cut the slots in the slab concrete from the side of the stretched zone with a mill. This significantly increases the complexity of the work. In addition, laying the fittings in the grooves cut by the cutter on the ceiling, and subsequent monolithic are also labor-intensive processes. At the same time, due to the complexity and inconvenience of performing the indicated works, the quality of monopolization can be low, as a result of which the goal (strengthening the stretched zone) will not be achieved.

For the prototype, the design of reinforcing the stretched zone of the precast reinforced concrete multi-hollow plate, including tightening reinforced steel and their fastening elements, was chosen. Puffs are placed outside the plate near its outer surface, which is subjected to tensile forces (ceiling surface in the building, structure). Each tightening fastener is made in the form of a cord placed in a vertical hole formed in the plate. The puff was connected to the tie rods by means of an anchor device (see A. Malganov et al. “Restoration and Strengthening of Building Structures of Emergency and Reconstructed Buildings.” Atlas of Schemes and Drawings. Tomsk, Tomsk Interindustry TSNTI, 1990, sheet 61, right top picture).

The main disadvantage of the design chosen for the prototype is that the reinforcing steel puffs and anchor devices are installed on the ceiling surface. This necessitates additional installation of a suspended ceiling that hides these elements of the described construction, which increases the complexity and cost of the work performed.

The technical task of the utility model was to develop a reliable reinforcement design for the stretched zone of the precast reinforced concrete multi-hollow slab, which reduces the complexity and cost of its installation.

The essence of the utility model lies in the fact that in the design of reinforcing the stretched zone of a precast multi-hollow precast slab including reinforcing steel puffs and their fastening elements, which are placed in the vertical holes formed in the slab, the puffs are placed in the voids of the slab from the side of its stretched zone, and each fastening element of the puffs is made in the form of a corner and an abutment rigidly interconnected, while the horizontal corner shelf interacts with the outer surface of the plate from the side of its compressed zone, and the emphasis provided with a groove through which the end of the tightening is passed, rigidly fixed on the stop, for example, by means of a threaded connection.

The proposed design reinforcing the stretched zone of the precast multi-hollow concrete slab is reliable in operation and provides a reduction in the complexity and cost of the work performed during its installation.

The utility model is illustrated by the drawing, in which Fig. 1 shows a construction of reinforcing the stretched zone of a precast reinforced concrete multi-hollow slab in a section, in Fig. 2 a section along AA.

The reinforcement design of the stretched zone of a precast multi-hollow concrete slab includes tightening 1 of reinforcing steel, for example of reinforcing bars or reinforcing ropes, and their fastening elements.

Puffs 1 are placed in the voids 2 of the plate 3 from the side of its stretched zone. The most optimal puff diameter is 10-14 mm.

Each fastening element of the puffs is made in the form of a corner 4 and a stop 5. The horizontal shelf of the corner 4 interacts with the outer surface of the plate 3 from the side of its compressed zone, and the stop 5 is placed in a vertical hole 6 made in the plate 3 and provided with a groove 7, through which the end of the tightening 1 is passed, rigidly fixed on the stop 5, for example, by means of a threaded connection 8.

The stop 5 is preferably made of a channel or sheet metal (the stop shows 5 made of sheet metal in the drawings). The size of the channel and the thickness of the sheet metal of the stop 5 is determined by calculation depending on the tension force of the tightening 1 and its diameter.

If the proposed design is used to strengthen a precast reinforced concrete multi-hollow floor slab in connection with an increase in operating loads, then vertical holes 6 are performed in areas adjacent to the zones of its support on walls or beams 9. In this case, the optimal distance from the wall or beams 9 to the vertical hole 6 is 0.5-0.7 m.

If the proposed design is used to strengthen the damaged area of the precast reinforced concrete multi-hollow floor slab, then vertical holes 6 can be made in the plate 3 in the areas adjacent to the damaged area. The distance from the damaged section of the plate to the vertical holes 6 is determined by calculation. However, as practice has shown, it is most optimal to place vertical holes 6 at a distance of at least 0.4 m from the damaged section of the plate 3.

Claims (2)

1. The reinforcement design of the stretched zone of the precast multi-hollow concrete slab, including reinforcing steel puffs and their fastening elements, which are placed in vertical holes formed in the slab, characterized in that the puffs are placed in the slots of the slab from the side of its stretched zone, and each fastening element the puffs are made in the form of a corner and an abutment rigidly interconnected, while the horizontal shelf of the corner interacts with the outer surface of the plate from the side of its compressed zone, and the emphasis is provided with a groove through which th omitted tightening end rigidly fixed to the abutment, for example by a threaded connection. 2. The construction according to claim 1, characterized in that the puffs are made of reinforcing bars or reinforcing ropes.