RU61744U1 - MONOLITHIC OVERLAP - Google Patents

Abstract

The utility model relates to the field of construction and can be used in the manufacture of floors of buildings and structures. The technical result consists in facilitating manufacturing technology while maintaining strength and the ability to withstand heavy loads, as well as improving sound insulation. In a monolithic ceiling, including crossbars, slabs supported by crossbars from two sides, and the joints of the joining of the crossbars and slabs are monolithic with concrete, that the supporting reinforcing frame is laid and concreted on top of the slabs and crossbars. The crossbars are made with a rectangular or semicircular cross section. Plates can have protruding parts and rest these parts on the crossbars. Slabs and crossbars are reinforced concrete with a light reinforcing cage. The reinforcement cage of the crossbar includes a rod located outside the crossbar along its longitudinal axis between the plates resting on the crossbar and the poured concrete when the joints of the joints of the crossbars and plates are monopolized. The plate may have a rectangular cross section or the bottom surface is a cylindrical arch.

Description

The utility model relates to the field of construction and can be used in the manufacture of floors of buildings and structures.

The "Polish cellar" ceiling is widely known: bricks are laid on the formwork panels, clamped with crossbars, for example, from old rails with the subsequent pouring of the structure with concrete. In the construction of this floor, removable formwork is used, which complicates the construction technology, as well as ordinary concrete, which requires an increase in the volume of building materials.

Flat and ribbed floors with crossbars are known (SU 1350297), however, removable formwork is also used in these floors, which, as noted above, complicates the technology of building construction.

A monolithic overlap is known in which plates are laid on a frame and concreted (RU 2043470). In this invention, it is proposed to fill the floors, leaving special holes in it for subsequent decoration with matrices that "print" a decorative pattern on the colored concrete that is newly poured between the matrix and the floor. Although this overlap is used

fixed formwork, however, it requires the preliminary manufacture of massive slabs, which complicates the manufacture of flooring and transportation of its elements to the construction site.

A monolithic overlap is known, including crossbars, plates based on crossbars from two sides, and the joints of the crossbars connection are monolithic with concrete (SU 1795028). This ceiling also requires the manufacture of massive slabs, which creates difficulties in the transportation and construction of the ceiling. In addition, it cannot provide high sound insulation.

The technical result consists in facilitating manufacturing technology, while maintaining strength and the ability to withstand heavy loads, as well as improving sound insulation.

The technical result is achieved by the fact that in a monolithic floor, including crossbars, plates resting on crossbars on both sides, and the joints of the joints of crossbars and plates are monolithic with concrete, and also that a supporting reinforcing cage is laid and concreted on top of the crossbars.

The crossbars are made with a rectangular or semicircular cross section.

Plates can have protruding parts and rest these parts on the crossbars.

Slabs and crossbars are reinforced concrete with a light reinforcing cage.

The reinforcement cage of the crossbar includes a rod located outside the crossbar along its longitudinal axis between the plates resting on the crossbar and poured with concrete while monoling the joints of the connection between the crossbars and plates.

The plate may have a rectangular cross section or the bottom surface of the plate is a cylindrical arch.

Figure 1 shows the laying of plates having protruding parts and beam crossbars of rectangular cross-section with filling seams.

Figure 2 shows the overlap with concrete poured beams with crossbars.

Figure 3 shows the overlap with a complicated supporting reinforcing cage.

Figure 4 shows the finished concrete floor.

Figures 5-8 show a similar overlap in which plates of rectangular cross section and crossbars with a semicircular cross section are used.

Figures 9-12 show a similar overlap in which crossbars with a semicircular cross-section and plates in which the lower surface is a cylindrical arch are used.

Monolithic overlapping includes crossbars 1, plates 2, based on crossbars from two sides. The joints of the joining of the crossbars and slabs are monolithic with concrete 3. On top of the slabs and crossbars the supporting reinforcing cage is laid and concreted (4 and 5).

Plates and crossbars are reinforced concrete with a light reinforcing cage 6.

The reinforcement cage of the crossbar includes a rod 7 located outside the crossbar along its longitudinal axis between the plates resting on the crossbar and poured with concrete while monoling the joints of the connection between the crossbars and plates.

Initially, models are made and matrices removed from them.

They make beam crossbars with decorative sides and a light reinforcing frame.

They make plates that can be decorative.

Installation of beams on load-bearing walls (with seals on top).

The plates on the crossbars are fixed with a fugue solution. Plates between themselves are closed with a colored mortar-fugue. At this stage, the half-gels are the strength element. The ceiling overlaps the dead weight of the crossbars, decorative plates and workers moving along the crossbars and walkways, resting on the crossbar. When flying more than 5 m, a temporary support is installed under the crossbar.

After setting, the supports are retracted; the ceiling is capable of bearing the weight of the concrete and reinforcing cage used for the ceiling device.

The next step is the laying-bunch of reinforcing cages and concreting of the floor.

After setting, the overlap is capable of bearing the calculated loads. After a slight cleaning of the seams, the overlap is ready for use.

There are no cavities in the proposed flooring, and it is possible to create the optimal soundproofing of the floor due to the use of expanded clay and other types of “silent” concrete or soundproofing inserts in a monolith.

Overlapping allows you to use a crossbar step of about 1 m, which simplifies the achievement of decorativeness, since slabs and crossbars have an initially decorative surface, which allows simple means to achieve the maximum decorative effect in the application of overlapping basement and 1 floors (billiard rooms, swimming pools, fireplace rooms, living rooms, dining rooms, etc. functional and stylized rooms).

Claims (8)

1. Monolithic overlap, including crossbars, slabs supported by crossbars on both sides, and the joints of the crossbars and slabs being monolithic with concrete, characterized in that the supporting reinforcing cage is laid and concreted over the slabs and crossbars. 2. The overlap according to claim 1, characterized in that the crossbars are made with a rectangular cross section. 3. The overlap according to claim 1, characterized in that the crossbars are made with a semicircular cross section. 4. The overlap according to claim 1, characterized in that the plates have protruding parts and rest these parts on the crossbars. 5. The overlap according to claim 1, characterized in that the slabs and crossbars are reinforced concrete with a light reinforcing cage. 6. The overlap according to claim 5, characterized in that the reinforcement cage of the crossbar includes a rod located outside the crossbar along its longitudinal axis between the plates resting on the crossbar and poured with concrete when monoling the joints of the crossbar and plate joints. 7. The overlap according to claim 1, characterized in that the plate has a rectangular cross section. 8. The overlap according to claim 1, characterized in that the lower surface of the plate is a cylindrical arch.