RU158881U1 - BUILDING CONSTRUCTION FROM MULTILAYER PANELS - Google Patents

Abstract

1. The building structure of multilayer panels, containing walls made of porous plates, lined with oriented chipboards, floors, roof frame, consisting of pre-assembled modular flat trusses of wooden beams, joined together end-to-end by metal plates with numerous elements in the form of spikes and installed on the upper ends of the walls, characterized in that the floors of the floors are made of metal-wooden beams formed by interconnecting consisting of wooden timber of the upper and lower zones with metal gear diagonal fastenings and reinforcing longitudinal and transverse elements, sheathed with a deck of plates. 2. The building structure according to claim 1, characterized in that the flooring is made of cement-bonded or oriented-particle boards. 3. The building structure according to claim 1, characterized in that the reinforcing longitudinal elements are made in the form of gear joints or metal gear plates. The building structure according to claim 1, characterized in that the reinforcing transverse elements are made of overlays or beams.

Description

The utility model relates to the field of construction, and can be used in the construction of residential, office and industrial premises with low floors.

A well-known cottage containing internal and external multilayer walls installed on foundations with monolithic reinforced concrete belts and a protective layer of small-sized blocks, a number of columns of internal walls forming a single frame system of the building with belts, columns equipped with a fixed formwork consisting of two parts, one of which made of p-shaped elements, the other of small blocks in the form of pilasters, while the fixed formwork is reinforced with reinforcing meshes (patent RU No. 2394141, IPC E 041/02 (2006.01), publ. 10.07.2010).

The disadvantages of this cottage are the long time and high complexity of the construction of the building.

An energy-efficient low-rise building is known, including a foundation, a rigid building frame formed by wooden strapping contours and vertical columns, external and internal walls, ceilings formed on the basis of multilayer building panels fastened together and mounted on the foundation, each multilayer building panel containing an internal frame made in the form of a frame, perforated metal profiles, outer and inner sheet cladding connected to the frame, and placed inside the panel is insulated with a layer of filling urea foam (patent RU No. 110793, IPC Е04Н 1/00, published November 27, 2011).

The technical solution is characterized by an increase in installation speed, stability and spatial rigidity, lower thermal conductivity of the external and internal walls, ceiling and floor.

The disadvantage of the design is that the wall panels contain an internal frame made in the form of a frame, and metal profiles, which greatly complicates the design and technology of their manufacture, increases the mass. In addition, the charge insulation used in the panels has the ability to caking and moisturizing due to condensate over time, which negatively affects the durability.

A low-rise building of modular construction is also known, containing a frame made of a metal profile, which is a fixing element for the frame structure of a wooden beam, on which the internal and external wall cladding, ceiling and floor ceilings are fixed, some of which are made of wood material and separated by an air gap using a spacer element in the form of a strapping beam (patent RU No. 105652, IPC Е04Н 1/02 (2006.01), publ. 06/20/2011).

As a result, the operational characteristics of the building were improved. However, the complexity of the construction of such a house is still quite high, and is associated with the need to erect a metal frame for the house, a frame made of wooden beams, and sheathing the frame inside and out. All this requires additional labor costs, and increases the time of building a house.

Known building structure of multilayer panels, containing walls of interconnected panels made of porous plates, faced with an oriented chipboard, roof frame and roof panels, mounted on the roof frame, installation elements in the form of wedge-shaped porous aggregates and flat keys installed in the gap between the roof panels and wall panels and between the mating roof panels and the waterproofing separated from them, while the wall and roof panels are interconnected by flat keys and a section us waterproofing (patent RU №63827, IPC E04N 1/02 (2006.01), publ. 10.06.2007).

This design allows you to stabilize the air-heat regime indoors by minimizing the possibility of the emergence of "cold bridges". The disadvantages of this design is the complexity of the floors and roof construction, associated with the need to install supporting bars (Mauerlat) under the rafters. The assembly of these farms, as a rule, is carried out on site from the bars by connecting them with nails. This method of assembly of the frame leads to increased consumption of materials, and does not ensure stability of the quality of the connection of the elements of the trusses because of the danger of splitting the beam with a nail or other fastener of large diameter.

The closest to the claimed technical solution according to the set of essential features and the technical result achieved is a building structure of multilayer panels, containing walls from interconnected panels, a roof frame and roof panels, mounted on a roof frame and made of porous plates, lined with oriented chipboard, the floors of which are made of the same panels as the walls, and the roof frame consists of pre-assembled modular flat trusses made of wood Rus, interconnected and fixed on both sides by metal plates with numerous elements in the form of spikes, while the trusses are mounted on the upper ends of the walls, and the lower beam of the truss is a support for the overlap of the attic floor (patent RU No. 119373, IPC Е04Н 1/02 (2006.01), published on 08.20.2012).

The utility model solves the problem of accelerating the process of building construction by erecting its roof from pre-assembled modular flat trusses from wooden beams, reducing labor intensity. But this technical solution does not solve the problem of increasing the bearing capacity of the floors during installation in spans of different sizes. In addition, during the construction of the building, especially on several floors, the problem arises of placing the communications of the house in such a way that they do not take away living space and do not spoil its aesthetics.

The task was to improve the operational characteristics of the building by increasing the bearing capacity of the floors, reduce the complexity of the construction of the building.

This problem is solved by the fact that in a building structure made of multilayer panels containing walls made of porous plates, lined with oriented chipboards, floors, a roof frame consisting of pre-assembled modular flat trusses made of wooden beams joined together by a joint with metal plates with numerous elements in the form of spikes and walls installed on the upper ends, characterized in that the floors are made of metal-wooden beams formed by joining I am waiting for a wooden beam consisting of upper and lower toothed belts with metal fasteners and reinforcing diagonal longitudinal and transverse elements of the trimmed plates decking.

In the particular case of execution, the flooring of the floors and the roof is made of cement-bonded or oriented-particle boards, the reinforcing longitudinal elements are made in the form of gear joints or metal gear plates, and the reinforcing transverse elements are made of overlays or beams.

Performing floors of floors made of metal-wooden beams formed by connecting each other consisting of a wooden bar of the upper and lower belts with metal gear diagonal fasteners and reinforcing longitudinal and transverse elements, sheathed with a deck of multilayer panels, allows to increase the bearing capacity of the floors and more evenly distribute the load.

This design of floors allows more efficient and economical overlapping of various spans of buildings with a standard step of beams up to 625 mm, using a larger step of beams in comparison with the known designs, which also reduces the material consumption of the structure. Ceilings are characterized by high speed and ease of installation, the absence of temporary fixtures and waste during installation. An additional effect achieved during the construction of buildings of the claimed combination is that the problem of laying engineering communications, such as water pipes, gas pipelines, electricity, heating, ventilation, which are placed inside the beam, is solved, which does not require the installation of additional suspended ceilings.

The manufacture of ceilings with metal gear diagonal fixtures and reinforcing longitudinal and transverse elements allows you to add additional structural rigidity, increase the bearing capacity of the floors and more evenly distribute the load

The applicant is not aware of building structures made of multilayer panels with the indicated combination of essential features, and the claimed combination of essential features does not follow explicitly from the current state of the art, which confirms the conformity of the claimed technical solution to the “novelty” condition.

The claimed technical solution is illustrated by drawings, where:

FIG. 1 - building structure of multilayer panels, a general view in 3D with a slit;

FIG. 2 - floor beam;

FIG. 3 - overlap.

The building structure of multilayer panels contains a foundation 1, walls made of interconnected panels 2, floors 3, roof frame 4, roofing 5.

The panels 2 consist of a layer of porous material, lined with oriented particle boards.

Overlappings of 3 floors are made of metal-wooden beams 6. Beams 6 are formed by connecting each other consisting of a wooden bar of the upper and lower belts, 7 and 8, respectively, with metal gear diagonal mounts 9 made of thin-walled steel. Toothed diagonal fasteners 9 are usually mounted on the beams 7 and 8 in such a way that they form a V-shaped plan. If it is necessary to increase the bearing capacity of the beam, the metal fasteners 9 are shifted to each other, or they are additionally installed in parallel one after the other. For the same purpose, the wooden bars of the beams 6 are additionally interconnected by reinforcing longitudinal and transverse elements, respectively 10 and 11. Beams of this design can be made of any length, it is possible to use both standard lumber and different sizes, which reduces production waste. The height of the floor beams depends on the span and pitch loads. Above and below, metal and wooden beams are sheathed with a flooring 12 of cement-bonded or oriented-particle boards.

The roof frame 4 consists of pre-assembled modular flat trusses 13 of wooden beams, joined together end-to-end and fixed on both sides by metal plates with numerous elements in the form of spikes (not shown).

Installation of the building structure begins with the construction of the foundation 1. On the foundation, covered with a waterproofing layer, lay the lower strapping beam, which is attached to it using anchor bolts or a hairpin. A basement consisting of wooden logs and panels is mounted on the lower strapping beam. After laying on the basement of the lower trim 14 of the walls of the first floor, they are assembled. The walls of the first floor consist of a wooden frame in the form of racks 15 and panels 2. Wall panels 2 are attached to the racks and the lower harness, as well as between themselves. On top of the racks of the first floor, the upper strapping 16 is attached, to which the panels of the first floor are also attached. Next is the assembly of the pediments, which are strengthened by jibs. Metal-wooden beams 6 are laid on the upper strapping beam of the panels, onto which a floor 12 of cement-bonded particle boards or oriented particle-boards is fixed on top and bottom, obtaining an interfloor overlap 3.

Next is the assembly of the walls of the second and subsequent floors, which is carried out similarly to the assembly of the walls of the first floor. After installing the wall panels of the last floor, the roof frame 4 is mounted, made of roof truss trusses 13 manufactured under production conditions, which are installed in the designed place and mounted on the upper ends of the walls.

The roof frame mounted from the trusses is insulated with mineral wool with hydro-vapor barrier installed, on top of which the roof covering 5 is laid.

The claimed technical solution allowed to increase the bearing capacity of the floors, reduce the complexity of the construction of the building structure.

The building structure of multilayer panels can be made using known materials and modern technologies, which meets the criterion of "industrial applicability".

Claims (4)

1. The building structure of multilayer panels, containing walls made of porous plates, lined with oriented chipboards, floors, roof frame, consisting of pre-assembled modular flat trusses of wooden beams, joined together end-to-end by metal plates with numerous elements in the form of spikes and installed on the upper ends of the walls, characterized in that the floors of the floors are made of metal-wooden beams formed by interconnecting consisting of wooden timber of the upper and lower zones with metal gear diagonal fastenings and reinforcing longitudinal and transverse elements, sheathed with a deck of plates. 2. The building structure according to p. 1, characterized in that the flooring is made of cement-bonded or oriented-particle boards. 3. The building structure according to claim 1, characterized in that the reinforcing longitudinal elements are made in the form of gear joints or metal gear plates. 4. The building structure according to claim 1, characterized in that the reinforcing transverse elements are made of overlays or beams.

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