RU171103U1 - MONOLITHIC COVERAGE - Google Patents

Abstract

The utility model relates to the field of low-rise construction, namely, structures used as ceilings and coatings of residential and public buildings. A useful model is aimed at increasing stiffness, strength and reducing the material consumption, laboriousness of manufacturing both beams and the entire ceiling as a whole. precast-monolithic overlapping includes load-bearing beams, filling elements in the form of lightweight concrete blocks with holes, united by a monolithic slab. According to a utility model, the load-bearing beams are made in the form of steel Tauris with wall ridges and welded in the upper zone of the wall “П” shaped anchors, while the ends of the “P” shaped anchors from the middle of the beam are bent left and right to the supports, which improves the joint work of the steel beam with concrete. The assembled precast-monolithic overlapping due to the presence of ribs in the wall of the brand and “P” shaped anchors with bends and concrete-filled cavities between the lightweight concrete blocks has increased rigidity and strength due to its joint with concrete work and as a result provides a reduction in steel consumption, and also due to the use of filling elements made of lightweight concrete gives the floor improved sound and heat insulation properties. In addition, it eliminates the need to arrange the basis of a flat ceiling in order to hide transit engineering communications and allows to perform a flat ceiling plastered on a grid.

Description

The utility model relates to the field of low-rise construction and can be used as floors of residential and public buildings.

Known precast-monolithic overlap for low-rise construction, comprising a fixed formwork of individual elements with longitudinal recesses, longitudinal and transverse reinforcement and monolithic reinforced concrete slab, where the formwork elements are made in the form of blocks of light concrete having transverse channels closed from above, into which transverse reinforcement is passed . [RF patent 2097502 C1, IPC E04B 5/38. 11/27/1997].

The disadvantage of prefabricated-monolithic overlap is the reduced rigidity of the overlap and the need for temporary inventory scaffolds for installation.

Known precast-monolithic overlap, including reinforced concrete beams with open reinforcing cages and with precast reinforced concrete hollow box elements open from the bottom and having a transverse trough in the middle part, joined together by monolithic concrete (RF Patent No. 537173, publ. 30.11.1976, bull. No. No. 44).

The disadvantages of this precast-monolithic overlap are: insufficient rigidity and strength, the complexity of manufacturing a reinforced concrete beam with a reinforcing frame (first you need to make a frame, then concrete the lower part of the beam section), the complexity of manufacturing a hollow box-shaped element with holes, the presence of a transverse trough in the middle of the long side may cause the box element to break during transport. A hollow reinforced concrete box-shaped element will require the installation of special sound-insulating layers, and in attic ceilings also insulation, in addition, it eliminates the need to build the base of a flat ceiling in order to hide transit engineering communications and to perform a plastered or tiled (for example, from drywall) ceiling.

The closest is a prefabricated-monolithic overlap, including load-bearing lattice beams, filling elements made of light concrete blocks with holes with lateral protrusions for their support on the beams and with protrusions in the perpendicular direction of the beams, with the formation of gutters for placement of transverse reinforcement (see RF patent No. 133549 IPC E04B 5/23, published on October 20, 2013, Bulletin No. 29).

The disadvantages of the prefabricated monolithic overlap are the relatively low stiffness and strength, the complexity of manufacturing lattice beams and as a result of the entire overlap.

The utility model is aimed at reducing the complexity of manufacturing lattice beams and floors, increasing the stiffness and strength of the beams and floors.

The result is achieved in that in a prefabricated-monolithic overlap, including bearing steel beams, lightweight concrete filling elements, united by a monolithic slab according to a utility model, the bearing beams are made of steel profiles of T-section. The result is also achieved by the fact that for joint work with concrete the walls of the steel brand are ribbed. The result is also achieved by the fact that “P” shaped anchors are welded to the wall in a T-section steel supporting beam and, in order to improve adhesion to concrete, the anchors are made with bends, moreover, the anchors are bent from the left side of the beam from left to right, and from right to left.

In FIG. 1 shows a precast-monolithic overlap in the context; in FIG. 2 - a fragment of a steel beam from a brand with "P" shaped anchors.

The overlap includes steel load-bearing beams of T-section 1, light-concrete filling elements 2 with openings 3 made in the direction of the beam are supported on the beams 1. Steel load-bearing beams 1 of the Tauri in the upper part of the wall, have ribs 7. For the purpose of non-waste production, Taurus 1 is obtained from a steel I-beam by dissolving it into two parts along the wall in a “P” shaped zigzag, while simultaneously receiving ribs 7. In the troughs of the ribbed wall 7 welded “U” shaped anchors 2 by welding 8, moreover, anchors 2 from the middle of the beam 1 are bent left and right to the supports. The filling elements 2 are made with lateral protrusions, with which they are supported on the steel brands 1. A reinforcing mesh 5 and a concrete layer 6 are laid on the filling elements 1 and also fill the voids, forming with the brand 1 the upper belt of the steel-reinforced concrete beam.

The order of installation of the floor is as follows. First, steel supporting beams 1 are installed on the walls or the main beams of the building frame, then filling elements 2 are laid on these beams, a mesh 5 is mounted, a layer of concrete 6 is laid.

The assembled precast-monolithic overlapping, due to the presence in the wall of steel beams of ribs and anchors with bends in the upper part and filling them with concrete, has increased rigidity and strength, as a result, it reduces steel consumption. The use of beams in the floors of such brands reduces the complexity of their manufacture, and filling elements made of light concrete gives the floor improved sound and heat insulation properties. In addition, it eliminates the need to arrange the basis of a flat ceiling in order to hide transit engineering communications and to perform a plastered or tiled (for example, plasterboard) ceiling.

Claims (2)

1. Precast-monolithic overlapping, including bearing steel beams, filling elements, united by a monolithic slab, characterized in that the bearing beams are made in the form of steel tees with shaped anchors with bends welded to the wall “P”. 2. Precast monolithic slab according to claim 1, characterized in that the walls of the brand are ridge, “P” shaped anchors are bent in the left part from the middle of the beam from right to left, and in the right part - from left to right.

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