RU123042U1 - ELEMENT OF MONOLITHIC CONCRETE COVERING - Google Patents

Abstract

1. An element of a monolithic concrete floor containing a base in the form of a thin-walled profile of a C-shaped cross-section with a reinforcing cage installed in it and at least two fixing elements fastening the base with a reinforcing cage and representing a steel strip bent to form, along at least two cradles and supports in contact with the inner and / or outer surfaces of the base. 2. The element according to claim 1, in which the reinforcing cage is made in the form of a lattice girder, as well as longitudinal rods laid in the lodgements.

Description

The utility model relates to the field of construction and can be used in the construction of prefabricated-monolithic, mainly often-ribbed ceilings.

The basis of formwork for precast concrete floors are beams, which are load-bearing elements that perceive the pressure of the concrete mixture. Beams, as a rule, are a monolithic (concrete, metal, composite, etc.) or hollow (metal, concrete, brick, etc.) base with a reinforcing cage installed in it. The manufacture of beams with a monolithic base is carried out, as a rule, in the factory. The manufacture of hollow base beams can be carried out both in the factory and directly at the construction site.

However, when pouring concrete formwork assembled using beams with a monolithic concrete base, the so-called “cold seam” appears, violating the monolithic integrity of the cross section of the concrete core and leading to weakening of the strength bonds at the junction of the “old” concrete of the beam and the “new” concrete poured into the formwork. Such joints are dangerous in terms of reducing the bearing capacity of the erected floor. In addition, beams with a monolithic concrete base have a sufficiently large weight, which creates inconvenience when transporting them, moving on a construction site, and lifting to the upper floors of buildings and structures under construction.

The use of beams with a hollow base completely solves the problem of “cold seam”. However, there is a need to ensure reliable fixation of the reinforcing cage in the hollow base, since when pouring concrete mix all the elements of the reinforcing cage can be displaced both in the transverse and in the longitudinal direction relative to the base of the beam. In addition, between the reinforcement of the frame and the hollow base of the beam, it is necessary to provide a sufficient protective layer of concrete. The solution of problems associated with the fixation of the reinforcing cage in the hollow base of the beam can be provided constructively with the help of fixing elements.

Known technical solution "Formwork element forming the beam" in accordance with European application EP 2444567 A1 (published on 04.25.2012, IPC 8 Е04С 5/065). The formwork element is a base section made of composite material with reinforcing elements placed in it, and on the inner surface of the section there are protrusions in which the reinforcement elements are fixed. Several sections laid out longitudinally form a beam and can be poured with concrete mixture directly in the assembled formwork of the floor. However, this solution is quite complicated from a technological point of view, since the production of sections equipped with protrusions requires special equipment.

The technical solution “Element for installing reinforcing reinforcement in concrete beams” is also known in accordance with European application EP 1398427 A1 (published March 17, 2004, IPC E04C 5/065). The technical solution is a fixing element made in the form of a solid metal plate, cast or stamped, having cutouts and shelves for laying reinforcing bars in them. The fixing element is installed in the hollow base of the beam, reinforcing bars are laid on it, then the structure is poured with concrete mixture. However, this element completely cuts the lower part (extension zone) of the cross section of the concrete core of the floor, which can lead to the appearance of vertical cracks in its lower part under the action of operational loads.

The technical result of the claimed utility model is to increase the strength of monolithic concrete floors by ensuring uniform distribution of concrete when pouring formwork and thereby ensuring the condition of monolithic section of the concrete core.

The specified technical result is achieved due to the fact that in the element of a monolithic concrete floor containing a base in the form of a thin-walled C-shaped profile, in which a reinforcing cage is installed and at least two fixing elements fastening the base with the reinforcing cage, the fixing elements are a steel strip bent to form at least two lodgements and supports in contact with the inner and / or outer surfaces of the base.

The reinforcing cage can be made in the form of a trellised truss, as well as longitudinal rods laid in lodgements.

The implementation of the fixing element of the steel strip makes it easy to give it the necessary shape depending on the quantity and type of reinforcement. As a result, lodgments will be formed in it in the form of sections of a rounded shape, with dimensions corresponding to the diameters of the reinforcing bars. To form the supports, the peripheral parts of the steel strip are bent, while the supports obtained can be of various shapes and can be supported on the inner surface, the bottom of the beam base, or on its upper flange.

The implementation of the reinforcing cage in the form of a lattice truss and longitudinal rods increases the strength characteristics of the floors.

Drawings explaining the essence of the claimed technical solution:

Figure 1 is a cross section of an element of a monolithic concrete floor with an internal contact of the supporting surfaces;

Figure 2 is a cross section of an element of a monolithic concrete floor with an external contact of the supporting surfaces;

Figure 3 is a cross section of an element of a monolithic concrete floor with reinforced reinforcement;

Figure 4 is an enlarged image of the contacting supporting surfaces;

5 is an isometric image of the claimed element;

6 is an image of the finished floor using the claimed element.

The claimed element of a monolithic concrete floor (beam) contains a base 1 made of a thin-walled metal profile with a C-shaped cross section, as well as a reinforcing cage 2. The fixing element 3 is installed inside the base 1. The fixing element 3 is made with the formation of lodges 4, which fit the rods of the reinforcing cage 2. The locking elements 3 are based either on the bottom of the base 1 or on its upper flanging by means of supports 5.

The connection of the fixing elements 3 with the reinforcing cage 2 is made in any available way, for example, using a knitting wire, welding, self-tapping screws.

Various bending machines can be used to make the C-shaped base. The locking elements are usually made by stamping on hydraulic or mechanical presses.

Assembly of the beam is carried out, as a rule, in the factory. To do this, several locking elements 3 are inserted into the C-shaped base 1 of a given length at a distance of 1.5-2 meters from each other. The fixing elements 3 are fixed in the base 1 using self-tapping screws, rivets or welding. In the lodgements 4 of the fixing elements 3, a reinforcing cage 2 is installed. The reinforcing cage 2 and the fixing elements 3 are connected to each other by knitting wire or by welding. Thus obtained product performs the role of a beam in the ceiling, they are delivered to the construction site, where, in accordance with the project, they are mounted on walls and temporary supports. Between the beams are laid blocks of floors. Beams and blocks together form a fixed formwork, which allows to obtain a ribbed floor slab after pouring concrete. Concrete poured into non-removable formwork is compacted using a vibrorail. After the concrete has set the strength specified by the design, the floor can be operated.

Claims (2)

1. An element of a monolithic concrete floor containing a base in the form of a thin-walled profile with a C-shaped cross section with an reinforcing cage installed in it and at least two fixing elements that fasten the base with the reinforcing cage and representing a steel strip curved to form at least two lodgements and supports in contact with the inner and / or outer surfaces of the base. 2. The element according to claim 1, in which the reinforcing cage is made in the form of a trellised truss, as well as longitudinal rods laid in lodgements.