RU130331U1 - MULTI-EMPLOYED COVERING PLATE - Google Patents

Abstract

1. A hollow core slab containing a concrete body, longitudinal and transverse reinforcement and having undercuts on the end surfaces to support the crossbars of the crossbar, characterized in that the height and depth of the undercuts do not exceed half the height of the slab, the ribs between the voids are reinforced by the inclusion of a bent rod in vertical reinforcing bars frames located in the support zone, and their thickness is increased by reducing the number of voids, and plugs are installed in voids on both end surfaces to a depth of not more than the height of the slab. 2. A multi-hollow floor slab according to claim 1, characterized in that when using a multi-hollow floor slab in a prefabricated-monolithic frame, a slot with a length of not more than half the height of the floor slab is arranged above each void to form concrete keys in the support node of the multi-hollow floor slab.

Description

The utility model relates to the field of construction and can be used in the construction of frame residential and public buildings with prefabricated or precast-monolithic overlap.

A prefabricated overlapping panel is known, including a slab with voids perpendicular to the span of the slab, and reinforcing cages, characterized in that the ends of the slab have upper and lower outlets of longitudinal reinforcing cages and recesses to create a monolithic concrete key (RF patent No. 43563, Cl. EV04 5 / 02).

Known multi-hollow reinforced concrete slab containing a concrete body, longitudinal and transverse reinforcement, and the supporting parts of the slab mating with the crossbar are made in the form of ledges, characterized in that the height of the ledges of the slab is equal to half its thickness (RF patent No. 104209, Cl. Е04С 2 / 00).

A disadvantage of the known multi-hollow reinforced concrete slab is the increased metal consumption of the support node of the plate.

The closest in technical essence is a floor slab containing parallel upper and lower surfaces connected by end walls, support shelves for installation on a crossbar made of T-section, characterized in that the support shelf is made on the upper surface, and is equal to at least , half the height of the floor slab and equal in length to the width of the slab, the length of the floor slab is equal to not more than the internal distance between the supporting tables of the crossbars (RF patent No. 71673, CL. EV 5/48).

A disadvantage of the known floor slab is the weakened support section of the plate due to a decrease in the height of the support section of the plate and the area of bearing of the plate on the support, since due to the presence of undercutting-recesses, the support of the plate falls on narrow ribs of the hollow space.

All of these slabs allow you to create a flat, without protrusions inside the room, overlap, but their use is limited in prefabricated frames, since without the use of cast concrete, the supporting section of the slab is weakened. The utility model is aimed at creating a multi-hollow floor slab, which allows to create a flat floor without losing the strength characteristics of the support section, when used both in a precast-monolithic reinforced concrete frame and in a precast reinforced concrete frame.

The result is achieved by the fact that a multi-hollow floor slab containing a concrete body, longitudinal and transverse reinforcement, has cuts on the end surfaces to support the crossbars, and the height and depth of the cuts does not exceed half the height of the slab. The ribs between the voids in the hollow core slab are reinforced by the inclusion of a bent rod in the vertical reinforcing cages located in the support zone, and their thickness is increased by reducing the number of voids. In the voids of a multi-hollow floor slab on both end surfaces, plugs are installed to a depth of not more than the height of the slab.

The result is also achieved by the fact that when using a multi-hollow floor slab in a prefabricated-monolithic frame, a slot is made above each void, with a length of not more than half the height of the floor slab, to form concrete dowels in the base unit of the slab.

A utility model is illustrated in the drawings. Figure 1 shows an example of a multi-hollow floor slab, cross section. Figure 2 shows a section 1-1 of figure 1. Figure 3 shows the design of a vertical reinforcing cage.

Multi-hollow floor slab 1, has clippings 2 on the end surfaces for support on the shelves of the crossbar, and the height and depth of clippings 2 does not exceed half the height of the slab. The thickness of the ribs 3 between the voids 4 in the multi-hollow floor slab 1 is increased by reducing the number of voids 4. The ribs are reinforced by the inclusion of a bent rod 5 in the vertical reinforcing cages 6 located in the support zone. In the voids 4 of the multi-hollow floor slab 1 on both end surfaces, plugs 7 are installed to a depth of not more than the height of the slab.

The result is also achieved by the fact that when using a multi-hollow floor slab 1 in a prefabricated-monolithic frame, a slot 8 is arranged above each void 4, with a length of not more than half the height of the floor slab, to form concrete dowels in the base unit of the slab.

The proposed design of a multi-hollow floor slab allows its use in the construction of frame residential and public buildings with prefabricated or prefabricated-monolithic floors and create a flat ceiling overlap, ensuring the reliability of the support node of the multi-hollow floor slab and the simplicity of its interface with the crossbar.

Claims (2)

1. A multi-hollow floor slab containing a concrete body, longitudinal and transverse reinforcement and having undercuts on the end surfaces to support the crossbars of the crossbar, characterized in that the height and depth of the undercuts does not exceed half the height of the slab, the ribs between the voids are reinforced by the inclusion of a bent rod in vertical reinforcing bars frames located in the support zone, and their thickness is increased by reducing the number of voids, and plugs are installed in voids on both end surfaces to a depth of not more than the height of the plate. 2. The hollow core slab according to claim 1, characterized in that when using a multi-hollow floor slab in a prefabricated monolithic frame, a slot with a length of not more than half the height of the floor slab is arranged above each void to form concrete dowels in the support node of the multi-hollow floor slab.

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