RU55393U1 - MULTILAYER BUILDING PANEL - Google Patents

Abstract

The utility model relates to construction and is intended for wall fencing of industrial and civil buildings.

The multilayer building panel contains an internal frame made in the form of a collapsible frame, non-structural insulation and sheet sheathing. The frame is made of galvanized perforated thermal profiles and contains lower and upper guides of a U-shaped profile with bends of edges made in one direction, between them there are vertical ribs of a C-shaped profile located in a row at equal distances from each other in the longitudinal direction of the guides and rigidly associated with them through fasteners, and the perforation of the thermal profiles is made in the form of elongated holes located in the longitudinal direction of the profiles, and the holes in various The profiles along their width are arranged in a mutually alternating manner. Double gypsum-fiber sheets were used as the material of the inner lining, fiber-cement “Fibrit” plates or other finishing materials were used as the external sheathing, mineral-insulation mineral wool panels or “Ecowool” thermal insulation cellulose were used as non-structural insulation material, and “Ecowool” thermal insulation cellulose was used, and as fasteners for thermal profiles, galvanized self-tapping screws.

The technical result of the proposed utility model consists of increasing the thermal properties, reducing the complexity of the assembly, increasing environmental safety and fire resistance of the panel.

Description

The utility model relates to construction and is intended for wall fencing of industrial and civil buildings.

Known building panel, including a wooden frame, the outer lining, the inner metal profiled sheathing, the middle layer of foam and a flat diaphragm located on the inner side of the sheathing (see SU 885489 A, IPC E 04 C 2/26, publ. 30.11.1981 g .).

The disadvantage of this panel is its low thermal properties.

Known three-layer panel fencing containing a non-separable frame of channel-shaped bent steel profiles with sheet sheathing and a filler, which to increase rigidity and strength is equipped with an additional frame with face sheathing and joining frames with thin-sheet profiles (USSR AS No. 1236074 A1, class E 04 S 2/26, published on 06/07/1986).

The disadvantages of the known panel is its technical complexity, the complexity of manufacturing, and the fact that the applied thin-sheet profiles do not provide sufficient strength of the corner and butt joints when using the panel for the outer walls of tall buildings.

Closest to the claimed technical essence and the achieved result, selected as a prototype, is a three-layer building panel, protected by patent RU No. 2245970, E 04 C 2/26 publ. 02/10/2005

The disadvantages of this panel are the use in the design of wooden beams, which insulates the panel, increases its fire safety and increases the complexity of assembling the frame at a construction site.

The above panel can be used in the construction of low-rise buildings, since according to the norms of SNiP, the use of wooden walling is allowed in buildings no higher than two floors.

These disadvantages are eliminated by the fact that in the known multilayer building panel containing an internal frame made in the form of a collapsible frame, non-structural insulation and sheet sheathing, the frame is made of galvanized perforated thermal profiles and contains lower and upper guides of a U-shaped profile with bends of edges made in one side, between them are installed vertical ribs of a C-shaped profile, located in a row at equal distances from each other in the longitudinal direction of the guides and rigidly associated with them by means of fasteners, and the perforation of the thermal profiles is made in the form of elongated holes located in the longitudinal direction of the profiles, and the holes in different sections of the profiles along their width are mutually alternating.

In addition, double gypsum fiber sheets were used as the material of the inner lining.

In addition, fiber cement boards “Fibrite” or other finishing material were used as the outer skin.

In addition, mineral insulating mineral wool plates or cellulose thermal insulation “Ecowool” were used as non-structural insulation material.

In addition, galvanized self-tapping screws are used as fasteners for thermal profiles.

The technical result of the proposed solution as a whole consists of increasing the thermal properties, reducing the complexity of the assembly, improving environmental safety and fire resistance of the panel.

The technical result from the manufacture of a frame of galvanized perforated thermal profiles allows to reduce the material consumption and, accordingly, the weight of the structure and the durability of the panel.

The technical result from the manufacture of the frame from the lower and upper guides of the U-shaped profile with the bends of the edges made in one direction and the installation between them of the vertical ribs of the C-shaped profile located in a row at an equal distance from each other in the longitudinal direction of the guides and their rigid connection with guides by means of fasteners reduces the labor costs of assembly at a construction site by reducing components and their standard sizes, and the use of self-tapping screws as fasteners increases assembly accuracy at a construction site, which increases the reliability of the structure.

The technical result from the perforation of the thermo-profile in the form of elongated holes located in the longitudinal direction of the profiles and the location of the holes in different sections of the profiles along their width in a mutually alternating manner allows you to eliminate the cold bridges.

The technical result is that double gypsum-fiber sheets are used as the materials of the inner lining, and fibrous-cement plates “Fibrit” are used in the outer sheathing, mineral-insulating mineral wool plates or cotton wool heat-insulating cellulose “Ekovata” are used, the panel strength is increased and its environmental safety is achieved

The essence of the proposed utility model is illustrated by drawings.

Figure 1 shows a panel with partially removed skin in the plan.

Figure 2 shows a cross section of a panel.

Figure 3 shows a General view of the profile with perforation.

The multilayer building panel contains a frame in the form of a detachable frame 1 containing the lower 2 and upper 3 guides of the U-shaped

profile with bends 4 edges made in one direction. Between the guides 2 and 3, vertical ribs 5 of a C-shaped profile are installed, arranged in a row at equal distances from each other in the longitudinal direction of the guides 2 and 3. The ribs 5 are rigidly connected to the guides 2, 3 by means of self-tapping screws 6. Guides 2, 3 and vertical ribs 5 are made of thermal profiles with perforation in the form of elongated holes 7 located along the profiles. The holes 7 are placed in different sections of the profiles along the width of the profiles in a mutually alternating manner.

Frame 1 together with guides 2, 3 and ribs 5 forms the inner frame of the panel. On the one hand, sheets 8 of the outer casing, consisting of fiber cement boards, and on the other, sheets of the inner casing 9, consisting of double gypsum sheets, are attached to the inner frame. The internal cavity of the proposed multilayer panel is filled with non-structural insulation 10, for example, thermal insulation mineral wool or thermal insulation cellulose wool "Ecowool".

The proposed panel is made as follows.

Profiles are delivered to the construction site in the form of compact packages divided by purpose. A frame is mounted at the construction site, vertical ribs are installed in the guide profiles, which are rigidly attached to the profile guide by means of self-tapping screws or by cold welding. On the assembled frame, the outer and inner skins are attached. The space between the inner and outer cladding is filled with insulation.

The advantage of the proposed multilayer building panel is that its design allows you to separate the manufacturing processes of panel elements and assembly. By reducing the assembly units and ensuring the high accuracy of the proposed panel, the labor required to assemble the panel is reduced.

Claims (5)

1. A multilayer building panel containing an internal frame made in the form of a collapsible frame, non-structural insulation and sheet sheathing, characterized in that 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 are installed vertical ribs of a C-shaped profile, arranged in a row at equal distances from each other in the longitudinal direction of the guides and rigidly connected with them by Fastening 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 of the profiles across their width arranged mutually alternating manner. 2. The multilayer building panel according to claim 1, characterized in that double gypsum fiber sheets are used as the material of the inner skin. 3. The multilayer building panel according to claim 1, characterized in that the fiber-cement "Fibrite" or other finishing materials are used as the outer skin. 4. The multilayer building panel according to claim 1, characterized in that the materials of non-structural insulation are heat-insulating mineral wool boards or cotton wool heat-insulating cellulose "Ecowool". 5. The multilayer building panel according to claim 1, characterized in that galvanized self-tapping screws are used as fasteners for thermal profiles.