RU191617U1 - OVERLAPPING A BUILDING DESIGN - Google Patents

Abstract

The utility model relates to the field of construction of low-rise buildings from SIP panels, namely to the construction of floors from SIP panels, mainly in cottage construction. The utility model is used as basement and interfloor ceilings in the construction of frame-panel buildings. The task to be solved by the claimed technical solution is to create a ceiling of a building structure characterized by improved technical and economic characteristics. The technical result achieved by solving the task is in increasing the margin of safety of the floor, ensuring the exclusion of deformation of SIP panels during operation and the possibility of increased cheniya span length perekrytiya.Perekrytie building structure comprises a rigidly interconnected through the wooden beam CIP panels and transom beams arranged mutually in parallel at a predetermined distance from each other, with the ends journalled on the bearing elements of the building structure. SIP panels are mounted on top of the beam beams in such a way that the connecting wooden SIP panels and the beam beams are mutually perpendicular. In some cases, the performance of SIP panels is rigidly interconnected through a wooden beam of rectangular cross section. In other cases, the performance of SIP panels is rigidly interconnected through a wooden beam of an I-section. Preferably, the distance between the beam beams is set depending on the dimensions of the beam cross-section, the material of the beam and the load per square meter of the floor of the building structure, providing resistance to the effects of the loads. 3 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of construction of low-rise buildings from SIP panels, namely to the construction of floors from SIP panels, mainly in cottage construction. The utility model is used as basement and floor floors in the construction of frame-panel buildings.

Basement is designed to separate the basement or foundation from the premises of the first floor. Interfloor overlap is intended to divide the floors in the house. Basement and interfloor ceilings should carry and distribute the load from the components located at the top - walls, roof, communications, furniture, interior details. Basement and floor floors must meet the requirements for strength.

In mass housing construction, multi-hollow reinforced concrete slabs are most widespread. It is known to overlap a building structure, including a supporting frame made of contour and intermediate elements, reinforcing bars fixed to the supporting frame on both sides and coated with concrete layers with the formation of cavities inside the slabs and finishing the surfaces of the slab. In the cavity of the frame are formwork-insulating elements between the frame elements in contact with the concrete layers, and the formwork-insulating elements are made in the form of sandwiches having at least two acoustically separated layers. The surfaces of the formwork-insulating elements in contact with the concrete layers are formed by rigid moisture-proof sheets. (RF patent No. 2054099 for the invention of “COVERING PLATE”, IPC E04B 5/00, [6] E04B 5/16, [6] E04B 5/16, [6] E04C 2/04, publ. 10.021.996)). Known overlap is characterized by high weight and complexity of execution.

Known for the closest combination of essential features and selected as a prototype is the overlap of the building structure, containing rigidly interconnected through a wooden beam SIP panels. (RF patent No. 91 357 for the utility model "BUILDING WITH FURNISHED FLOORS", IPC E04G 23/02, published on 02/10/2010). A wooden beam is both a supporting beam and a connecting key of a SIP panel. The use of factory-made SIP panels with standard sizes eliminates the time-consuming and time-consuming assembly of the floor. Known overlap is characterized by environmental friendliness, ease of manufacture and low weight. A disadvantage of the known overlap is the insufficient margin of safety, which results in deformation of the SIP panels during operation and there are restrictions on the maximum permissible span of the overlap, depending on the bearing capacity of the dowel of the connecting SIP panel, since its height and pitch are limited by the specified dimensions of the SIP panel.

The task to which the claimed technical solution is directed is to create an overlap of the building structure, characterized by improved technical and economic characteristics.

The technical result achieved by solving the task is to increase the margin of safety of the floor, ensuring the exclusion of deformation of SIP panels during operation and the possibility of increasing the length of the span of the floor (more than 4.2 m).

The specified technical result is achieved by the fact that the overlap of the building structure contains SIP panels rigidly interconnected via a wooden beam and beam beams placed mutually in parallel at a predetermined distance from each other, with the ends resting on the supporting elements of the building structure. SIP panels are mounted on top of the beam beams in such a way that the connecting wooden SIP panels and the beam beams are mutually perpendicular.

In some cases, the performance of SIP panels is rigidly interconnected through a wooden beam of rectangular cross section.

In other cases, the performance of SIP panels is rigidly interconnected through a wooden beam of an I-section.

Preferably, the distance between the beam beams is set depending on the dimensions of the beam cross-section, the material of the beam and the load per square meter of the floor of the building structure, providing resistance to the effects of the loads.

A comparative analysis of the proposed technical solution with the prototype showed that in all cases it is different from the known closest technical solution:

- the presence of transom beams placed mutually in parallel at a given distance from each other, with the ends resting on the supporting elements of the building structure;

- the implementation of the SIP panels mounted on top of the crossbeams in such a way that the connecting SIP panels of the wooden beam and the crossbeams are mutually perpendicular.

In a preferred embodiment, the claimed technical solution differs from the known, closest:

- the implementation of SIP-panels connected through a wooden beam of rectangular cross section;

- the implementation of SIP-panels connected through a wooden beam of an I-section;

- placement of crossbar beams at a distance from each other, providing resistance to the effects of the loads, depending on the size of the cross section of the beam, the beam material and the load per square meter of overlap.

The presence of crossbar beams placed mutually parallel at a predetermined distance from each other, with the ends resting on the supporting elements of the building structure and placing SIP panels mounted on top of the crossbar beams in such a way that the connecting SIP panels wooden beam and crossbar beams are mutually perpendicular, increases safety margin of the ceiling of the building structure, allowing to exclude deformation of SIP panels during operation and providing the possibility of increasing the length of the span of the ceiling I have ceilings with spans (more than 4.2 m).

The placement of crossbar beams at a distance from each other, providing resistance to the effects of exerted loads depending on the dimensions of the cross section of the beam, the beam material and the load per square meter of overlap allows you to vary the margin of safety depending on the design features of the building structure.

The utility model is illustrated by a schematic drawing of the floor of a building structure shown in FIG. one.

In a preferred embodiment, the overlap of the building structure comprises SIP panels 1, and rigidly interconnected through a wooden beam 2. SIP panels 1 are mounted on top of the crossbeams 3, which are mutually parallel at a predetermined distance d from each other. The ends of the crossbeams 3 are supported by load-bearing elements 4 of a building structure (not shown in the drawing). SIP panels 1 are installed in such a way that the connecting SIP panels 1 of the wooden beam 2 and the beam beams 3 are mutually perpendicular. SIP panels 1 can be interconnected through a wooden beam 2 of rectangular cross-section, or through a wooden beam of an I-section (not shown in the drawing). The distance d between the crossbeams 3 is set depending on the size of the cross section, the material of the beam 3 and the load per square meter of overlap, providing resistance to the effects of the loads.

The utility model works as follows.

On the formed load-bearing elements 4 of the building structure, the beam beams 3 are laid, which can be used, including a wooden beam. The beam beams 3 are stacked mutually parallel at a predetermined distance d, while the ends of the beam beams 3 are based on the supporting elements 4 of the building structure. On top of the crossbeams 3, a flooring of SIP panels 1 is installed. The SIP panels 1 are installed in such a way that the connecting SIP panels 1 of the wooden beam 2 and the crossbars 3 are arranged mutually perpendicular. As a rule, the SIP panels 1 delivered to the construction site already contain a beam 2 mounted on one side (mainly on the right side). Each SIP panel 1 (i) is attached to the beam 2 and then to the next SIP panel 1 (i + 1 ) of the type “spike groove”. The SIP-panel 1 is fastened to the beam 2 using wood screws 32-55 mm or nails 40-70 mm, the fastening step in both cases is 100-200 mm. A layer of polyurethane foam (not shown) is applied to all the joints of the beam 2 with the SIP panel 1. Polyurethane foam (Macroflex type) serves as fasteners and sealant at the same time. The connection of the ceiling and the wall panel is made screw. The type of screw connection is selected according to the required strength characteristics and recommendations of manufacturers of SIP panels.

Claims (4)

1. Overlap of a building structure, containing SIP panels rigidly connected to each other through a wooden beam, characterized in that it comprises crossbeams placed mutually parallel at a predetermined distance from each other, with the ends resting on the supporting elements of the building structure, and the SIP panels are installed on top of the crossbeams in such a way that the wooden beam connecting the SIP panels and the crossbeams are mutually perpendicular. 2. Overlap of the building structure according to claim 1, characterized in that the SIP panels are interconnected through a wooden beam of rectangular cross section. 3. Overlap of the building structure according to claim 1, characterized in that the SIP panels are interconnected through a wooden beam of an I-section. 4. Overlap of the building structure in paragraphs. 1-3, characterized in that the distance between the beam beams is set depending on the size of the cross section of the beam, the material of the beam and the load per square meter of overlap, providing resistance to the effects of the loads.

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