RU108464U1 - MULTILAYER BUILDING PANEL - Google Patents

Abstract

 1. A multilayer building panel for the erection of load-bearing walls, ceilings, roofs of low-rise buildings, including an internal frame made in the form of a frame containing perforated metal profiles, an external and internal sheet skin connected to the frame, and a heater placed inside the panel made of heat and soundproofing material, characterized in that as the insulation panel contains a layer of filling urea foam. ! 2. A multilayer building panel according to claim 1, characterized in that a layer of heat and sound insulating material formed from granular foam glass is additionally placed inside the panel. ! 3. The multilayer building panel according to claim 1, characterized in that an additional layer of heat and sound insulating material formed from mineral fibers, basalt fiber and / or glass fiber is additionally placed inside the panel. ! 4. A multilayer building panel according to any one of claims 1 to 3, characterized in that the frame is made in the form of a collapsible frame. !5. The multilayer building panel according to claim 4, characterized in that the profiles forming the panel frame are rigidly interconnected by means of fasteners. ! 6. A multilayer building panel according to claim 4, characterized in that galvanized self-tapping screws and / or bolted joints are used as fasteners for the profiles. ! 7. A multilayer building panel according to any one of claims 1 to 3, characterized in that the frame is made in the form of a non-separable frame. ! 8. The multilayer building panel according to claim 7, characterized in that the profiles are interconnected by rivets. ! 9. The multilayer building panel according to claim 7, characterized

Description

The utility model relates to construction and can find application in low-rise construction, in the construction of one- two- and three-story houses, cottages, farm buildings, storage facilities, as well as buildings and structures for public use, social and cultural facilities.

There are various structural solutions of building panels used in low-rise construction.

A building panel is known - a heat-insulating element consisting of a shell and a filler inside it, and the shell is made of stepped load-bearing elements made of reinforced cement, mounted on an existing wall structure and filled with heat-insulating material made of polystyrene foam or polyurethane foam with protective-decorative coatings (see RF patent No. 2145993, IPC E04B 1/76, publication 2000).

Known building panel provides increased resistance to heat transfer, however, it is difficult to manufacture, and its use is very time-consuming.

A building panel is known comprising a three-dimensional steel frame with a heat-insulating layer of polyurethane foam fixed to it, the frame is made with spatial cells, the size of which is (50-100) mm × (50-100) mm × (50-100) mm, the frame parameters correspond to panel parameters, and the thickness of the heat-insulating layer is (0.1-0.9) of the thickness of the carcass, and the heat-insulating layer in its length and width corresponds to the same parameters of the carcass and is placed at a distance of at least (10-50) mm from the plane determining the thickness of the carcass , The frame is made of steel wire, and insulating layer is made of "Izolan-101" (RF Patent №2224854 IPC E04S 2/22, publication 2004 YG).

The disadvantages of the known panel are the complexity of manufacturing and installation, the need for production only in the factory, the inability to redevelop structures and buildings, large dimensions, which complicates the transportation of panels and their storage.

A layered building panel is known comprising layers of outer and inner skin and a carrier layer located between them in the form of a carcass with polyurethane foam filler poured into its inner part between the carcass elements, the carcass is made of transverse and longitudinal elements interconnected, forming sections framed by airborne elements located on the sides of the panel, while the panel has an intermediate insulating layer of polyurethane foam with a thickness of 0.5-10 cm, located between the layer of the outer shell woks and a carrier layer, bonded to the outer skin layer and with the contacting end surfaces of the carcass elements by means of an adhesive joint, the carcass is made of metal profile elements with an anti-corrosion coating, the side elements are outwardly walled, and the intermediate insulating layer and the filler are made in a single unit (patent RF №91351, IPC Е04С 1/00, publication of 2010).

The disadvantages of the known panel include the complexity of the manufacture and installation of the panel, the need for production only in the factory, large dimensions that make installation, transportation and storage difficult, the panel has low thermal insulation properties.

Known multi-layer building panel containing an internal frame made in the form of a collapsible frame, non-structural insulation and sheet sheathing, while the frame is made of galvanized perforated thermal profiles and contains lower and upper guides of the U-shaped profile with bends of edges made in one direction, between them installed vertical ribs of the C-shaped profile, arranged in a row at equal distances from each other in the longitudinal direction of the guides and rigidly connected to them by means of a crepe GOVERNMENTAL elements and thermo perforation made in the form of elongated holes arranged in the longitudinal direction of the profiles, wherein the openings in different parts across their width profiles are arranged mutually alternating manner (Russian patent №55393, IPC E04S 2/26, publication 2006 YG).

The disadvantages of the known panel are its large dimensions, complicating the installation, transportation and storage.

The objective of the proposed utility model is: simplification of the manufacturing technology of the panel, allowing assembly of the panel both in the factory and at the construction site; increase the convenience of installation, storage and transportation of panels; increasing the operational characteristics of panels, their heat-insulating, sound-proofing properties, fire safety.

The technical result achieved by using the proposed technical solution is the creation of a multilayer building panel, consisting of non-combustible or slow-burning components and combining high thermal and sound insulation indicators, as well as creating a construction panel structure that is simple to manufacture and has optimal weight and size characteristics that facilitate its installation, warehousing and transportation. Using the panel will reduce the construction time of buildings and structures, facilitate the redevelopment and (if necessary) dismantling of buildings.

The proposed utility model expands the arsenal of technical means intended for use in low-rise construction.

The essence of the proposed technical solution is as follows.

A multilayer building panel for the erection of load-bearing walls, ceilings, and roofs of low-rise buildings includes an internal frame made in the form of a frame containing perforated metal profiles, an external and internal sheet sheathing connected to the frame, and a heater placed inside the panel made of heat and sound insulation material . As a heater, the panel contains a layer of bulk urea foam.

Inside the panel, a layer of heat and sound insulating material formed from granulated foam glass can be additionally placed.

A layer of heat and sound insulating material formed from mineral fibers, basalt fiber and / or fiberglass can also be placed inside the panel.

The frame of the panel can be made in the form of a collapsible frame, while the profiles forming the panel frame are rigidly connected to each other by means of fasteners, which can be applied galvanized self-tapping screws and / or bolted joints.

The frame can be made in the form of a non-separable frame, while the profiles are interconnected by rivets, or by welding or soldering.

The frame has a quadrangular shape, while the two opposite sides of the frame are made of profiles of a U-shaped section, and the other two sides are made of profiles of a C-shaped section.

Opposite sides of the quadrangular frame may be angled to each other.

Jumpers can optionally be installed inside the frame, connecting the opposite sides of the frame.

Perforation of metal profiles is made in the form of elongated holes located in the longitudinal direction of the profiles.

The frame is formed from profiles made of steel with an anti-corrosion coating, while a zinc coating can be used as an anti-corrosion coating.

Between the sheet sheathing and insulation can be placed steam and / or waterproofing material.

A vapor-absorbing tape and / or film is placed between the sheet skin and the frame.

The frame elements located vertically during the erection of walls can be made of curved profiles with a curved wall having protrusions and depressions in cross section.

As the material of the outer and / or inner sheathing, cement-bonded particleboards, gypsum board sheets, glass-magnesite sheets, galvanized steel sheets can be used.

The essence of the proposed utility model is illustrated by drawings, where in Fig.1 shows a General view of a multilayer building panel; figure 2 - P and C-shaped thermal profiles; figure 3 is a frame in which opposite sides are located at an angle to each other; figure 4 - frame with additional jumpers; figure 5 - appearance of the figured profile; figure 6 - panel with a vapor absorption tape.

The multilayer building panel contains an inner frame made in the form of a frame 1, an outer 2 and an inner 3 sheet sheathing connected to the frame 1, and also a heater 4 located inside the panel.

Insulation 4 is made of heat and sound insulating material. As a heater, the panel contains a layer of bulk urea foam.

A layer of heat and sound insulating material formed from granular foam glass or from mineral fibers, basalt fiber, fiberglass can be additionally placed inside the panel.

The use of granulated foam glass in parts of a panel that is exposed to the most severe effects of atmospheric precipitation (for example, the lower part of wall panels) will allow, without significantly increasing the weight of the panel, increasing its overall water resistance and corrosion resistance.

The use of insulation based on mineral fibers, basalt fiber, fiberglass in parts of the panels, which are then supposed to make holes for pipelines, ventilation, etc., will avoid damage to the main layer of thermal insulation during work.

Between the sheet sheathing and insulation is placed steam and / or waterproofing material 5.

When using vapor-permeable materials (for example, cement-bonded slabs, glass magnesite) as the inner lining of panels, it is necessary to protect the heat-insulating layer from the ingress of water vapor from the interior. To do this, vapor barrier materials are used located between the inner lining and the insulation. In the case when the outer skin has technological holes and / or gaps (for example, made of vinyl siding), a waterproofing material is placed between the outer skin and the insulation to protect the insulation from moisture. The used waterproofing material, protecting the insulation from moisture in the form of a liquid, does not prevent the passage of water vapor and the drying of the insulation.

Between the sheet sheathing and the frame is a vapor-absorbing tape and / or film 6 (Figs. 1, 6).

Since the surface of the frame onto which the casing is fastened contains protruding elements (profile joining units, protruding parts of fasteners), a vapor-absorbing tape and / or film is placed between the frame and the casing to seal joints and reduce noise level when the casing sheets vibrate relative to the frame.

The frame of the panel can be made in the form of a collapsible or non-collapsible frame 1, which has a quadrangular shape and consists of metal profiles 7, while the two opposite sides of the frame are made of profiles of a U-shaped section 8, and the other two sides are made of profiles of a C-shaped section 9.

Opposite sides of the frame can be located at an angle to each other (figure 3).

Inside the frame can be additionally installed jumpers connecting the opposite sides of the frame (figures 1, 4).

The profiles forming the collapsible panel frame are rigidly interconnected by means of fasteners, which can be used galvanized self-tapping screws and / or bolted joints.

When used in a panel of a non-separable frame, the profiles are interconnected by rivets or by welding or soldering.

Part of the metal profiles has perforation in the form of elongated holes 10 (Fig.1, 2) located in the longitudinal direction of the profiles.

The frame is formed from profiles made of steel with an anti-corrosion coating, while a zinc coating can be used as an anti-corrosion coating.

The frame elements located vertically when erecting the walls are made of curved profiles with a curved wall having protrusions and depressions in cross section (Fig. 5).

As the material of the outer and / or inner sheathing, cement-bonded particleboards, gypsum board sheets, glass-magnesite sheets, galvanized steel sheets can be used.

The building panel is made as follows:

From metal profiles of factory manufacturing, having dimensions corresponding to the design documentation, the external contour of the frame is assembled, and the necessary internal jumpers are installed. All frame parts are joined using self-tapping screws and / or bolted joints and / or rivets, soldering or welding. A vapor-absorbing tape is attached to the frame parts in contact with the casing, then, if necessary, a vapor barrier film is laid on the frame. Then, one of the sheathing sheets is laid and fixed on the same side. On the opposite side, the frame is filled with insulation, if necessary, different sections can be filled with various insulation. The boundaries between the frame sections are internal jumpers. A waterproofing film is laid on top of the insulation (if necessary). On top of the film or directly on the insulation, a second sheathing sheet is laid and fixed. Part or all of these operations may be performed at the construction site.

Panels can be produced with window and doorways.

The resulting building panel has excellent heat and sound insulating properties and can be used as a base element for the manufacture of external and internal walls of buildings, internal partitions, floors, as well as roofs.

Claims (22)

1. A multilayer building panel for the erection of load-bearing walls, ceilings, roofs of low-rise buildings, including an internal frame made in the form of a frame containing perforated metal profiles, an external and internal sheet skin connected to the frame, and a heater placed inside the panel made of heat and soundproofing material, characterized in that as the insulation panel contains a layer of filling urea foam. 2. A multilayer building panel according to claim 1, characterized in that a layer of heat and sound insulating material formed from granular foam glass is additionally placed inside the panel. 3. The multilayer building panel according to claim 1, characterized in that an additional layer of heat and sound insulating material formed from mineral fibers, basalt fiber and / or glass fiber is additionally placed inside the panel. 4. A multilayer building panel according to any one of claims 1 to 3, characterized in that the frame is made in the form of a collapsible frame. 5. The multilayer building panel according to claim 4, characterized in that the profiles forming the panel frame are rigidly interconnected by means of fasteners. 6. A multilayer building panel according to claim 4, characterized in that galvanized self-tapping screws and / or bolted joints are used as fasteners for the profiles. 7. A multilayer building panel according to any one of claims 1 to 3, characterized in that the frame is made in the form of a non-separable frame. 8. The multilayer building panel according to claim 7, characterized in that the profiles are interconnected by rivets. 9. The multilayer building panel according to claim 7, characterized in that the profiles are interconnected by welding or soldering. 10. A multilayer building panel according to any one of claims 1 to 3, characterized in that the frame is made of a quadrangular shape, while the two opposite sides of the frame are made of profiles of a U-shaped section, and the other two sides are made of profiles of a C-shaped section. 11. The multilayer building panel according to claim 10, characterized in that the opposite sides of the frame are located at an angle to each other. 12. The multilayer building panel according to claim 10, characterized in that jumpers are additionally installed inside the frame connecting the opposite sides of the frame. 13. A multilayer building panel according to any one of claims 1 to 3, characterized in that the perforation of the metal profiles is made in the form of elongated holes located in the longitudinal direction of the profiles. 14. A multilayer building panel according to any one of claims 1 to 3, characterized in that the frame is formed from profiles made of steel with an anti-corrosion coating. 15. A multilayer building panel according to claim 14, characterized in that a zinc coating is used as an anti-corrosion coating. 16. A multilayer building panel according to any one of claims 1 to 3, characterized in that a vapor and / or waterproofing material is placed between the sheet skin and the insulation. 17. A multilayer building panel according to any one of claims 1 to 3, characterized in that a vapor-absorbing tape and / or film is placed between the sheet skin and the frame. 18. A multilayer building panel according to any one of claims 1 to 3, characterized in that the frame elements arranged vertically when erecting the walls are made of curved profiles with a curved wall having protrusions and depressions in cross section. 19. A multilayer building panel according to any one of claims 1 to 3, characterized in that cement-particle boards are used as the material of the outer and / or inner skin. 20. A multilayer building panel according to any one of claims 1 to 3, characterized in that gypsum board sheets are used as the material of the outer and / or inner skin. 21. A multilayer building panel according to any one of claims 1 to 3, characterized in that glass-magnesite sheets are used as the material of the outer and / or inner lining. 22. A multilayer building panel according to any one of claims 1 to 3, characterized in that galvanized steel sheets are used as the material of the outer and / or inner skin.