RU88712U1 - STRENGTHENING REINFORCEMENT CONCRETE MULTI-BLASTING FLOOR PLATES - Google Patents

Abstract

1. The reinforcement design of reinforced concrete multi-hollow floor slabs, including reinforcing elements placed on the outer surfaces of the floor slabs, characterized in that each reinforcing element is rigidly connected to two floor slabs placed on opposite sides of the wall or beam on which they rest, rigid connection of the element reinforcement with floor slabs is carried out by means of anchors, some ends of which are monolithic in the voids of floor slabs, and the second are fixed to the reinforcing elements so that the longitudinal The axial axis of each anchor is separated from the wall or beam on which the reinforced floor slab rests, at a distance,! where Δl is the distance from the wall or beam on which the reinforced floor slab rests, to the longitudinal axis of the anchor, m; ! l is the distance between two walls or beams on which the reinforced floor slab rests, m; ! q is the initial calculated operational load perceived by the reinforced slab, kgf / m; ! Δq is the additional calculated operational load perceived by the reinforced slab, kgf / m; ! lon - length of the zone of support of the reinforced floor slab on the wall or beam, m! 2. The design according to claim 1, characterized in that the reinforcing elements are made of a corner or channel. ! 3. The design according to claim 1, characterized in that the anchors are made ⊥-shaped. ! 4. The design according to claim 3, characterized in that the horizontal parts of the anchors are made of a corner.

Description

The utility model relates to construction, in particular, to reinforcement structures for multi-hollow reinforced concrete floor slabs, providing unloading of the floor in connection with an increase in operational loads.

Known structures for strengthening the nodes of the support of multi-hollow floor slabs (panels) on walls, containing additional support from the corner and coupling bolts installed in the holes drilled in the wall and in the floor slabs (see A. Malganov and others. “Restoration and strengthening of building constructions of emergency and reconstructed buildings. ”Atlas of diagrams and drawings. Tomsk, Tomsk Interindustry TSNTI, 1990, sheet 74, drawings in the upper row of sheet 74).

The described structures are intended to strengthen the support units of floor slabs (panels), which have a small bearing area on the wall and deviate from the original design position, for example, due to uneven settlement of the building. Reinforcement of multi-hollow reinforced concrete slabs for unloading the floor due to increased operational loads, this design does not provide.

For the prototype, the reinforced concrete slab reinforcement design was selected using reinforced elements mounted on top made in the form of metal strips.

The metal strips are fixed perpendicular to the beams, with the midpoints of the strips located approximately above the central axis of the beam, and their ends extend into the zone of the plate lying outside the beam. The fastening of metal strips to a reinforced concrete slab is made by means of glue and / or anchors. (see. "Catalog of design solutions for strengthening and restoration of building structures of industrial buildings", Moscow, Central Research Institute of Industrial Buildings, 1987, sheets 101-102).

The design chosen for the prototype is designed, first of all, to strengthen the upper stretched zone of the supporting sections of monolithic reinforced concrete slabs made in one piece with beams, and is not intended to strengthen reinforced concrete multi-hollow slabs, which would provide unloading of the ceiling made of these slabs, in the case of increase in operational loads. In addition, this design cannot be used to strengthen the support zone of the ceilings, made of separate, unrelated, prefabricated hollow-core slabs having a small area of abutment on walls or beams.

The technical task of the utility model was to develop a reinforcement design for reinforced concrete multi-hollow floor slabs, while simultaneously providing both unloading of the slabs while increasing operational loads, and strengthening of the nodes supporting the slabs on walls or beams.

The essence of the utility model is that in the reinforcement design of reinforced concrete multi-hollow floor slabs including reinforcing elements placed on the outer surfaces of the floor slabs, each reinforcing element is rigidly connected to two floor slabs placed on opposite sides of the wall or beam on which they are supported, the reinforcing element is rigidly connected to the floor slabs by means of anchors, some ends of which are monolithic in the voids of the floor slabs, and the second are fixed to the reinforcing elements so that the longitudinal axis of each anchor is spaced apart from the wall or beam on which the reinforced floor slab rests where

Δl is the distance from the wall or beam on which the reinforced floor slab rests, to the longitudinal axis of the anchor, m;

l is the distance between two walls or beams on which the reinforced floor slab rests, m;

q is the initial calculated operational load perceived by the reinforced slab, kgf / m;

Δq is the additional calculated operational load perceived by the reinforced slab, kgf / m;

l _on is the length of the zone of support of the reinforced floor slab on the wall or beam, m

In addition, the anchors are made ⊥-shaped, while the horizontal parts of the anchors are made of a corner, and the reinforcing elements are made of a corner or channel.

The proposed construction of reinforcing multi-hollow reinforced concrete floor slabs provides, firstly, the unloading of these slabs while increasing the operational loads on the slab and, as a result, the unloading of the slab itself, and secondly, the strengthening of the support units of the slabs on the wall or beam.

The utility model is illustrated by the drawing, which shows the reinforcement structure of a reinforced concrete multi-hollow floor slab in a section.

The reinforcement structure of reinforced concrete multi-hollow floor slabs includes reinforcing elements 1, each of which is installed on the outer surfaces of two floor slabs 2, 3, placed on opposite sides of the wall or beam 4 on which they rest.

The reinforcing element 1 is rigidly connected to floor slabs 2 and 3 by means of anchors 5, 6, one ends of which are passed through holes 7, 8, made in floor slabs 2, 3, and monolithic in the voids 9, 10 of these plates, and the second ends are fixed to reinforcement element 1 in such a way that the longitudinal axis of each anchor is spaced from the wall or beam 4, on which the reinforced slab is supported, at a distance where

Δl is the distance from the wall or beam on which the reinforced floor slab rests, to the longitudinal axis of the anchor, m;

l is the distance between two walls or beams on which the reinforced floor slab rests, m;

q is the initial calculated operational load perceived by the reinforced slab, kgf / m;

Δq is the additional calculated operational load perceived by the reinforced slab, kgf / m;

l _on is the length of the zone of support of the reinforced floor slab on the wall or beam, m

Due to such placement of anchors, the design span of reinforced concrete multi-hollow floor slabs is reduced, and, consequently, their deflection is reduced, which allows to increase the operational load on the floor up to 2-2.5 times.

The reinforcing elements 1 are made mainly of a corner or channel, which increases their rigidity.

Anchors 5, 6 are made ⊥-shaped, while their horizontal parts 11, 12 are made from a corner. This design of anchors increases the reliability of the connection of anchors with reinforced concrete hollow core slabs.

Claims (4)

1. The reinforcement design of reinforced concrete multi-hollow floor slabs, including reinforcing elements placed on the outer surfaces of the floor slabs, characterized in that each reinforcing element is rigidly connected to two floor slabs placed on opposite sides of the wall or beam on which they rest, rigid connection of the element reinforcement with floor slabs is carried out by means of anchors, some ends of which are monolithic in the voids of floor slabs, and the second are fixed to the reinforcing elements so that the longitudinal the axial axis of each anchor is spaced from the wall or beam on which the reinforced floor slab rests, at a distance

, where Δl is the distance from the wall or beam on which the reinforced floor slab rests, to the longitudinal axis of the anchor, m; l is the distance between two walls or beams on which the reinforced floor slab rests, m; q is the initial calculated operational load perceived by the reinforced slab, kgf / m; Δq is the additional calculated operational load perceived by the reinforced slab, kgf / m; l _on is the length of the zone of support of the reinforced floor slab on the wall or beam, m 2. The design according to claim 1, characterized in that the reinforcing elements are made of a corner or channel. 3. The design according to claim 1, characterized in that the anchors are made ⊥-shaped. 4. The design according to claim 3, characterized in that the horizontal parts of the anchors are made of a corner.