RU69535U1 - MONOLITHIC COVERAGE - Google Patents

Abstract

The utility model relates to the field of construction and can be used in the construction of light prefabricated monolithic ceilings of low-rise buildings and structures. The technical result achieved in the utility model is to reduce the material consumption while maintaining the strength characteristics and durability factors of the floor specified by the project, as well as to reduce the complexity of manufacturing individual structural elements and facilitate installation, which ultimately leads to a decrease in the cost of installation of the floor. The specified technical result is achieved as follows. The precast-monolithic overlap contains load-bearing beams in the form of a thin-walled profile, as well as a fixed formwork installed between the load-bearing beams and resting on their lower belt. The overlap has a flat reinforcing layer located over the entire area of the precast-monolithic overlap in its lower part as separate fragments between the bearing beams. The space between the supporting beams and above it has monolithic concrete filling, made with the formation of at least one structural and heat-insulating layer.

Description

The utility model relates to the field of construction and can be used in the construction of light prefabricated monolithic ceilings of low-rise buildings and structures.

Reinforced concrete flooring is known, containing a U-shaped slab with a cylindrical shell inscribed on the inside. The shell is seamlessly connected at the base with the longitudinal ribs of the U-shaped plate and at the top with the shelf of the plate. The cylindrical shell has a variable section. (RU 2082858 C1, E04B 5/02, published. 1997).

The disadvantages of the overlap is the high cost of installation and the need to use lifting equipment.

The prototype of the proposed utility model is an overlap (RU 61743 U1, E04B 5/32, published. 03/10/2007), including load-bearing beams, between which a prefabricated fixed formwork of arch type, reinforcing mesh and a monolith of overlap is placed.

The disadvantages of this overlap is the increased consumption of materials, increased complexity of manufacturing and manual installation of arched formwork.

The technical result achieved in the utility model is to reduce the material consumption while maintaining the strength characteristics and durability factors of the floor specified by the project, as well as to reduce the complexity of manufacturing individual structural elements and facilitate installation, which ultimately leads to a decrease in the cost of installation of the floor.

The specified technical result is achieved as follows.

The precast-monolithic overlap contains load-bearing beams in the form of a thin-walled profile, as well as a fixed formwork installed between the load-bearing beams and resting on their lower belt. The overlap has a flat reinforcing layer located over the entire area of the precast-monolithic overlap in its lower part as separate fragments between the bearing beams. The space between the supporting beams and above it has monolithic concrete filling, made with the formation of at least one structural and heat-insulating layer.

In special cases, the proposed precast-monolithic overlap can be characterized by the following features.

Bearing beams are made of galvanized metal or composite material.

Bearing beams are perforated.

Bearing beams are cold-formed.

In the ceiling, fixed formwork, made of a flat asbestos cement sheet.

Fixed formwork made of fiberboard based on a composite gypsum binder or cement or fiberglass sheet.

The flat reinforcing layer is made in the form of a mesh of steel reinforcement with a diameter of 6-8 mm.

The flat reinforcing layer is made in the form of a frame made of fiberglass or composite material.

Monolithic concrete filling has a thickness of at least 100 mm with a bulk density of at least 800 kg / m3 and consists of a binder and aggregate.

The binder is made in the form of a composite gypsum binder (KGV) or cement or a magnesian binder.

The aggregate is made in the form of silica sand or expanded clay of a fine fraction or granules of expanded liquid glass or a mixture of the above aggregates.

A flat reinforcing layer is located on top of or within the fixed formwork.

The utility model is illustrated by the drawing, in which Fig. 1 shows the overlap in the case of a flat reinforcing layer on top of a fixed formwork, and Fig. 2 shows the overlap in the case of a flat reinforcing layer inside a fixed formwork.

Precast monolithic overlap contains load-bearing beams 1, made in the form of a thin-walled profile.

Bearing beams 1 can be made of galvanized metal or composite material, which leads to the provision of a given bearing capacity.

Beams 1 can be made perforated to increase adhesion with cast concrete and heat transfer resistance.

Bearing beams 1 can be made using the cold-formed method, which leads to cheaper and lower own weight in relation to traditional rolling profiles.

Between the supporting beams 1, a fixed formwork 2 is installed, which rests on their lower belt.

Formwork 2 can be made of a flat asbestos-cement sheet or fiberboard. The material for the fiberboard is selected on the basis of a composite gypsum binder or cement or fiberglass sheet.

Over the entire area of the precast-monolithic overlap in its lower part is a flat reinforcing layer 3. Layer 3 is laid in separate fragments between the bearing beams 1.

Layer 3 may be located on top of or within the fixed formwork. In the latter case, the number of installation operations with the ceiling device is reduced.

Layer 3 can be made in the form of a mesh of steel reinforcement with a diameter of 6-8 mm to ensure the bearing capacity of the floor.

An embodiment of a flat reinforcing layer 3 in the form of a fiberglass frame or composite material leads to the provision of the bearing capacity of the overlap and light weight.

Monolithic concrete filling 4 is located in the space between the supporting beams 1 and forms at least one structural and heat-insulating layer.

The proposed design of prefabricated-monolithic overlapping provides a reduction in the thickness of the overlap while maintaining the strength characteristics and factors of its durability, which ultimately leads to a decrease in material consumption, ease of installation of the overlap and lower installation costs.

Claims (12)

1. Precast-monolithic overlapping, containing load-bearing beams in the form of a thin-walled profile, non-removable formwork installed between the load-bearing beams and resting on their lower belt, a flat reinforcing layer located throughout the area of the pre-cast-in-place overlap in its lower part by separate fragments between the load-bearing beams , and monolithic concrete filling between the bearing beams and above it, made with the formation of at least one structural heat-insulating layer. 2. The overlap according to claim 1, in which the carrier beams are made of galvanized metal or composite material. 3. The overlap according to claim 1, in which the carrier beams are perforated. 4. The overlap according to claim 2, in which the carrier beams are made cold-formed. 5. The overlap according to claim 1, in which the fixed formwork is made of a flat asbestos-cement sheet. 6. The overlap according to claim 1, in which the fixed formwork is made of fiberboard based on a composite gypsum binder, or cement, or fiberglass sheet. 7. The overlap according to claim 1, in which the flat reinforcing layer is made in the form of a mesh of steel reinforcement with a diameter of 6-8 mm 8. The overlap according to claim 1, in which the flat reinforcing layer is made in the form of a frame made of fiberglass or composite material. 9. The overlap according to claim 1, in which the monolithic concrete filling has a thickness of at least 100 mm with a bulk density of at least 800 kg / m ³ and consists of a binder and aggregate. 10. The overlap according to claim 9, in which the binder is made in the form of a composite gypsum binder, or cement, or magnesian binder. 11. The overlap according to claim 9, in which the aggregate is made in the form of silica sand, or expanded clay expanded fractions, or granules of expanded liquid glass, or a mixture of the above-mentioned aggregates. 12. The overlap according to claim 1, in which the flat reinforcing layer is located on top of the fixed formwork or inside it.