RU196006U1 - COMBINED MONOLITHIC REINFORCED CONCRETE COVERING - Google Patents

Abstract

The utility model relates to the field of construction, namely to monolithic ceilings and ceilings using fixed formwork. The device contains a plate and beams with reinforcement located in two directions and forming a grid with an aspect ratio of less than two, and the reinforcing frames of the beams have a triangular shape in a plane perpendicular to their longitudinal axes, and the reinforcing mesh of the plate is connected with the reinforcing frame of each beam having a triangular shape , between which cells are not filled with concrete, having a trapezoidal shape in cross section and located in the space between the beams to the slab, it is additionally equipped with a fixed board opal bkoy not filled with concrete with cells of expanded polystyrene and clamps bottom reinforcement position, attached via screws adjacent planks, the adjacent shuttering boards have tongue and groove connection. The technical result consists in providing an increase in the degree of readiness of the precast-monolithic flooring due to the fixed formwork. 1 s.p. f-ly, 3 ill.

Description

The utility model relates to the field of construction, namely to prefabricated monolithic ceilings and ceilings using fixed formwork and can be used in the construction of ceilings of low-rise and multi-story civil buildings with their support on four sides of bearing stone walls or a similar reinforced concrete frame.

Known monolithic reinforced concrete girder flooring (patent RU No. 111169 U1, class EV 5/32), including a plate supported on a system of cross beams containing the main beams and supporting beams resting on them. This design assumes its support on two sides, i.e. It works as a beam, characterized in that its length is several times greater than the width. It is generally recognized that if there is the possibility of supporting the floor on four sides at once, then it is desirable, for reasons of increasing the bearing capacity and rigidity of the floor structure, to ensure the location of the bearing beams-ribs in two mutually perpendicular directions.

As a prototype of the proposed utility model, a monolithic caisson floor has been adopted (Eurasian Patent No. 010219 B1, class EB04 5/32, E04G 11/40). This monolithic caisson floor consists of slabs and beams with reinforcing bars located in two directions and forming a grid with an aspect ratio of less than two. It contains vaulted hollow cells having a trapezoidal shape in cross section and located in the space between the beams to the slab, and the reinforcing frames of the beams have a triangular shape in the plane perpendicular to their longitudinal axes, and the reinforcing mesh of the plate is connected with the reinforcing frame of each beam.

In the case of using such a ceiling structure in civilian buildings, an additional, subsequent after stripping, heat and sound insulation device with a laborious finish of the lower ceiling surface will be required. Thus, as a disadvantage that is eliminated in our utility model, the overlap - the prototype has a relatively low degree of building readiness, which is eliminated in the proposed design of precast-monolithic reinforced concrete floors.

The objective of the utility model is to increase the degree of building readiness of the constructed precast-monolithic reinforced concrete floor structure.

To solve this problem, a precast-monolithic reinforced concrete floor is proposed, consisting of slabs and beams with reinforcement made in one direction located in two directions and forming a grid with an aspect ratio of less than two. In this case, the reinforcing frames of the beams have a triangular shape in a plane perpendicular to their longitudinal axes, and the reinforcing mesh of the slab is connected with the reinforcing frame of each beam having a triangular shape, and cells not filled with concrete, having a trapezoidal shape in cross section and located in space, are placed between the beams between the beams to the slab. Distinctive features of the proposed precast-monolithic overlap is the presence of a fixed plank formwork with non-filled concrete cells made of expanded polystyrene and fixators for the position of the bottom reinforcement, fastened with screws through adjacent boards, adjacent formwork boards have a tongue and groove connection.

Applying the proposed design of the ceiling, even in the technological process of its manufacture, it will be possible to obtain a structural system that ensures the performance of load-bearing, insulating and finishing functions without the need for subsequent performance of labor-intensive finishing and insulation works. Thus, the designed structure will have an increased degree of building readiness immediately after its manufacture in one integrated construction and technological process.

In FIG. 1 shows the proposed precast-monolithic reinforced concrete floor, part of it in isometric projection with a partial section in the thickness of the monolithic reinforced concrete; In FIG. 2 shows a section 1-1 in FIG. 1, and in FIG. Figure 3 shows the detail of the overlap in the installation zone of the fixator for the position of the lower reinforcement before laying concrete (node A of Fig. 2).

The proposed precast-monolithic reinforced concrete floor consists of slab 1 and beams 2 with reinforcement 3 located in two mutually perpendicular directions and forming a grid with an aspect ratio of less than two. In this case, the reinforcing frames 4 of the beams 2 have a triangular shape in a plane perpendicular to their longitudinal axes, and the reinforcing mesh 5 of the plate 1 is connected with the reinforcing frame 4 of each beam 2 having a triangular shape. Between the beams 2 there are placed cells 6 not filled with concrete, having a trapezoidal shape in cross section and located in the space between the beams 2 to the plate 1. The distinctive features of the proposed precast-monolithic flooring are the presence of a fixed plank formwork 7 with cells not made of concrete from polystyrene foam 6 and fixatives 8 positions of the bottom reinforcement 3. These latches 8 are fastened with screws 9 to adjacent formwork boards 7. The adjacent formwork boards 7 have an additional tongue-and-groove connection 10.

The technology of the device of a monolithic reinforced concrete floor with integral upper slab 1 and beams 2 made at the same time is carried out below as follows. On the transverse temporary support beams install a fixed formwork of boards 7 with previously fixed (glued) cells 6, for example, of polystyrene foam. Each subsequent formwork board 7 is laid on a previously mounted tongue-and-groove connection 10 between them. After connecting these boards 7, the latches 8 of the position of the bottom reinforcement 3 are installed together, which are then attached to the boards 7 in the area of the tongue and groove joints 10 with screws 9.

After the manufacture of the formwork 7, the reinforcing cages 4 are stacked between the polystyrene foam cells 6, whereby the lower reinforcement 3 is first installed in the retainers 8 in one direction, and then the triangular-shaped frame 4 is installed in the other perpendicular direction. A reinforcing mesh 5 is installed along the upper edge of the frame 4, after which the concrete mixture is laid, forming at the same time slab 1 and beams 2. Thus, after setting concrete, the proposed precast-monolithic reinforced concrete floor is formed.

Therefore, as a result of preliminary assembly and subsequent concreting of the remaining volume between the liners and above them, a precast-monolithic overlap with reinforced concrete ribs in two mutually perpendicular directions, which is based on four sides at once, is obtained. Moreover, the resulting design immediately after manufacture acquired both the supporting and the heat and sound insulating functions of the floor, as well as the finishing properties of the ceiling system. That is, a constructive system of an increased degree of construction readiness has been obtained, requiring only finishing finishing work on the installation of clean floors and ceilings.

Claims (2)

1. Precast monolithic reinforced concrete flooring, consisting of integral slabs and beams with reinforcement located in two directions and forming a grid with an aspect ratio of less than two, and the reinforcing beams of the beams have a triangular shape in a plane perpendicular to their longitudinal axes, and the reinforcing mesh of the plate connected with the reinforcing frame of each beam, having a triangular shape, between which are placed cells not filled with concrete, having a trapezoidal shape in cross section and located in the space between the beams of the plate, characterized in that it is provided with a non-removable plank formwork is filled with concrete with no cells of expanded polystyrene and clamps position the lower valve attached by screws through neighboring boards. 2. Precast monolithic reinforced concrete slab according to claim 1, characterized in that the adjacent formwork boards have a tongue and groove connection.

Images