RU2626499C1 - Reinforcement structure of reinforced concrete hollow core floor slab - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: reinforcement structure of a reinforced concrete hollow core floor slab includes: a groove made in stretched slab area below a slab hollow; additional reinforcement arranged in the stretched slab area in the slab hollow area or the area below the slab hollow, the additional reinforcement is equipped with at least two anchors located at the end portions of the additional reinforcement and installed in openings made at the arrangement points of said anchors; keys made at the end and central sections of the additional reinforcement in the openings, the groove and the slab hollow, the end sections of the additional reinforcement are embedded in said keys. Wherein at the level of the additional reinforcement in the sections between the keys, reinforced concrete plates connected with the keys are made.

EFFECT: development of the reinforcement structure of a reinforced concrete hollow core slab, which allows to protect additional reinforcement from corrosion.

3 cl, 3 dwg

Description

The invention relates to the construction, in particular, to reinforcement structures for multi-hollow reinforced concrete floor slabs, access to which is not possible from above, for example floor slabs, used mainly in combined roofing buildings.

A known construction of reinforcing multi-hollow reinforced concrete slabs, including additional reinforcement, which is placed and monolithic in the grooves made in the stretched zone of the plate. In this case, the grooves are made in the zones of the voids of the plate, connected to the indicated voids and equipped with clamps, in which the additional reinforced reinforcement is placed. Additional monolithic reinforcement is equipped with at least two monolithic anchors, which are installed in the holes made in the locations of these anchors (see patent RU No. 147226, IPC E04G 23/02, publ. 10.27.2014).

Despite the fact that the design chosen as an analogue provides effective reinforcement of the stretched zone of precast multi-hollow concrete slabs, it has a high material consumption and significantly increases the weight of the slab.

The closest analogue is the reinforcement structure of a reinforced concrete multi-hollow floor slab, including a groove made in the stretched zone of the slab below the hollow of the slab, additional reinforcement that is placed in the stretched zone of the slab in the hollow of the slab or the zone below the hollow of the slab. The additional reinforcement is provided with at least two anchors, which are located at the end sections of the additional reinforcement and are installed in holes made in the locations of the indicated anchors. At the same time, dowels are made at the end sections of the additional reinforcement in the holes, groove and void of the plate, the end sections of the additional reinforcement and anchor are monolithic in these keys. The dowels are made in the central sections of the additional reinforcement in the groove and in the slab of the plate, the central sections of the additional reinforcement are monolithic in these keys (see patent RU No. 153650, IPC E04G 23/02, published on July 27, 2015).

However, this design does not protect the additional reinforcement from corrosion.

The objective of the invention is to develop a reinforcement structure for a multi-hollow reinforced concrete slab, which allows you to protect additional reinforcement from corrosion.

The essence of the invention lies in the fact that the reinforcement structure of a reinforced concrete multi-hollow floor slab, including a groove made in the stretched zone of the slab below the void of the slab, additional reinforcement, which is placed in the stretched zone of the slab in the zone of the void of the slab or the zone below the void of the slab, additional reinforcement is provided at least two anchors, which are located at the end sections of the additional reinforcement and are installed in the holes made in the locations of the indicated anchors, dowels made at the end central and central sections of the additional reinforcement in the holes, groove and void of the plate, the end sections of the additional reinforcement are monolithic in these dowels, while at the level of additional reinforcement in the areas between the dowels, reinforced concrete plates connected to the dowels are made, while:

- the thickness of the reinforced concrete plates is selected from the condition:

C ≥ a ^r + a ^r '+ d ^r ,

where C is the thickness of the reinforced concrete plates,

and ^r is the value of the protective layer of concrete of additional longitudinal reinforcement located below the longitudinal reinforcement,

and ^r 'is the value of the protective layer of concrete additional longitudinal reinforcement located above the longitudinal reinforcement,

d ^r is the diameter of the additional longitudinal reinforcement;

- dowel height is selected from the condition:

B ≥ D / 2 + h ^g ,

where B is the height of the dowel,

D is the void diameter of the hollow core slab,

h ^g - the height of the lower, extended shelves of the hollow core slab.

The design, supplemented by a reinforced concrete plate, allows you to protect additional reinforcement from corrosion. This reduces the material consumption of the reinforcement structure by limiting the height of the keys.

The invention is illustrated by drawings, where in FIG. 1 shows a cross-sectional reinforcement structure of a reinforced concrete multi-hollow floor slab, in FIG. 2 is a section along AA, in FIG. 3 - a section along BB.

The reinforcement design of a reinforced concrete multi-hollow floor slab 1, including a groove 2, made in the stretched zone of the slab below the void 3 of the slab, additional reinforcement 4, which is placed in the stretched zone of the slab in the void zone of the 3 slab or the zone below the void 3 of the slab, additional reinforcement 4 is provided at least two anchors 5, which are located at the end sections of the additional reinforcement 4 and are installed in the holes 6 made in the locations of the indicated anchors 5, the dowels 7, made at the end and central sections up to olnitelnoy reinforcement in the holes 6, the recess 2 and 3, vacuum cookers, the end portions of the additional armature 4 is hardwired to the data keyed, characterized in that the additional reinforcement at level 4 in areas between the splines 7 are made of reinforced concrete plates 8 connected with splines 7.

The thickness of the reinforced concrete plates 8 is selected from the condition:

C ≥ a ^r + a ^r '+ d ^r ,

where C is the thickness of the reinforced concrete plates 8;

and ^r is the value of the protective layer of concrete of additional longitudinal reinforcement located below the longitudinal reinforcement (selected as the largest value given in SP 63.13330.2012. "Concrete and reinforced concrete structures. Fundamentals" or SP 28.13330.2012. "Protection of building structures from corrosion");

and ^r 'is the value of the protective layer of concrete of additional longitudinal reinforcement located above the longitudinal reinforcement (selected as the highest value given in SP 63.13330.2012. "Concrete and reinforced concrete structures. General provisions" or SP 28.13330.2012. "Protection of building structures from corrosion ");

d ^r - the diameter of the additional longitudinal reinforcement 4.

The height of the dowel 7 is selected from the condition:

B ≥ D / 2 + h ^g ,

where B is the height of the keys;

D is the diameter of the void 3 multi-hollow plate 1;

h ^g - the height of the lower, extended shelves of the hollow core slab 1.

To complete the reinforcement design, a groove 2 and holes 6 are connected from the stretched zone from the side of the stretched zone 1 and holes 6 connected to the void 3. Anchors 5 are attached to the additional reinforcement 4, which are placed at the ends of the reinforcement 4. Additional reinforcement 4 with anchors 5 is installed in the groove 2 and openings 6 using clamps (not shown in FIG.). At the bottom surface of the plate 1 in the execution areas of the keys 7 and the plates 8, the formwork is mounted. In the groove 2 between the additional reinforcement 4 and the slab 1, the nozzle of the concrete pump is installed and the keys 7 and plates 8 are concreted. The keys 8 and plates 8 can be concreted by hand.

Claims (12)

1. The reinforcement structure of a reinforced concrete multi-hollow floor slab, including a groove made in the stretched zone of the slab below the void of the slab, additional reinforcement which is placed in the stretched zone of the slab in the zone of the slab void or in the region below the slab of the slab, the additional reinforcement is provided with at least two anchors, which located at the end sections of the additional fittings and installed in holes made in the locations of the indicated anchors, dowels made at the end and central sections additionally reinforcement holes, the recess and a vacuum plate, the end portions of the additional armature hardwired data keyed in, characterized in that the additional reinforcement at the level of the sections between the dowels are made of reinforced concrete plates connected with splines. 2. The design according to claim 1, characterized in that the thickness of the reinforced concrete plates is selected from the condition: C ≥ a

+ a

'+ d

, where C is the thickness of the reinforced concrete plates; but

- the value of the concrete protective layer of additional longitudinal reinforcement located below the longitudinal reinforcement; but

'- the value of the protective layer of concrete of additional longitudinal reinforcement located above the longitudinal reinforcement; d

- the diameter of the additional longitudinal reinforcement. 3. The construction according to paragraphs. 1 and 2, characterized in that the height of the keys is selected from the condition: B ≥ D / 2 + h ^g , where B is the height of the keys; D is the void diameter of the hollow core slab; h

- the height of the lower, extended shelves of the hollow core slab.

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