RU65523U1 - MULTILAYER DESIGN PANEL (OPTIONS) - Google Patents

Abstract

Multilayer structural panels can be used in the construction of residential, public and industrial buildings and structures as supporting external and internal walls, partitions, as well as combined roofing. The technical task is to increase the strength and reliability of the connecting nodes, as well as to increase the manufacturability of the manufacture and installation of fireproof structural panels. The multilayer structural panel is made with connecting protrusions and / or grooves, consists of mineral wool plates connected to each other with supporting steel profiles mounted on them, while the connecting protrusions and / or grooves are formed by adjacent mineral wool plates. The panel can be made of three mineral wool plates connected to each other with supporting steel profiles mounted on them. In a three-layer structural corner panel, mineral wool plates form a protrusion or groove on one side, and step protrusions on the other. As mineral wool boards, basalt fiber insulation with a density of 75 kg / m ³ to 200 kg / m ^{3 is used} . Mineral wool boards are connected to each other using separate vertical adhesive joints.

Description

The utility model can be used in the construction of residential, public and industrial buildings and structures as supporting external and internal walls, partitions, as well as combined roofing.

A three-layer wall panel is known in which the outer and inner structural reinforced concrete layers are located with ends offset relative to each other, between which an intermediate layer of insulation is placed (RU 2191239). Using the proposed design of a three-layer wall panel allows you to build buildings with improved quality and reliability of horizontal joints, which increases the service life of the building, and increasing the rigidity of the wall structure of the building being built increases its seismic resistance and operational reliability. A disadvantage of the known panel is the high cost of the panel and the complexity of installation. The large weight of the panel, the complexity of installation lead to the need to attract skilled workers and the use of special equipment.

Known building panels of mineral wool slabs (US 6405509) or of polymer slabs (US 5524400) equipped with load-bearing steel profiles. Bridges of cold form at the junction points of such plates. Known building panels according to patents US 4953334, GB 2135708, US 5822940 which use single-layer boards made of polymer porous insulation, the joints of the boards have protrusions and grooves for a more reliable connection of the boards and elimination of cold bridges. The panels are equipped with load-bearing steel profiles, the panels are connected using tie-down strips. However, the design of such plates, small levers of support profiles do not provide sufficient strength for vertical and horizontal loads. In addition, the use of polymeric materials is associated with the need for additional measures to ensure fire safety. The panels of US Pat. No. 5,822,940 (FIGS. 15-17) are selected as a prototype.

The technical task of the utility model is to increase the strength and reliability of the connecting nodes, as well as to increase the manufacturability of the manufacture and installation of fireproof structural panels.

The technical result is achieved in a multilayer structural panel with connecting protrusions and / or grooves, consisting of mineral wool plates connected to each other with supporting steel profiles mounted on them, while the connecting protrusions and / or grooves are formed by adjacent mineral wool plates. The multilayer structural panel can be made of three mineral wool plates connected to each other with supporting steel profiles mounted on them. At the same time, on both sides of the structural panel, mineral wool boards form a connecting protrusion and / or groove. In a three-layer structural corner panel, mineral wool plates form a protrusion or groove on one side, and step protrusions on the other. As mineral wool boards, basalt fiber insulation with a density of 75 kg / m ³ to 200 kg / m ^{3 is used} . Mineral wool boards are connected to each other using separate vertical adhesive joints.

The utility model is illustrated by drawings:

figure 1 - three-layer structural panel, view from the lower (upper) end;

figure 2 - three-layer structural panel;

figure 3 - three-layer corner structural panel, view from the lower (upper) end;

figure 4 - three-layer corner structural panel;

5 is a connection of a three-layer structural panels;

6 is a connection of a three-layer corner structural panels;

The multilayer structural panel consists of mineral wool plates 1 connected to each other (Figs. 1, 2 and 3, 4) with supporting galvanized steel profiles 2 mounted on them, while the connecting protrusions 3 and / or grooves 4 are formed by adjacent mineral wool plates 1.

The figures show three-layer panels, if necessary, the number of layers of mineral wool boards can be increased, while the connecting protrusions 3 and grooves 4 on each side of the wall structural panel, for example, alternate for more tight connection of adjacent panels.

A multilayer structural panel with a connecting protrusion and a groove may consist of three mineral wool plates connected to each other (Figs. 1, 2) with supporting steel profiles mounted on them. The figures show an example.

performing a structural panel in which the connecting protrusion 3 and the groove 4 are formed, formed by a central mineral wool slab displaced relative to the extreme mineral wool slabs.

The multilayer structural corner panel can also consist of three mineral wool plates connected to each other (Figs. 3, 4) with supporting steel profiles mounted on them, while on the one side of the structural panel the mineral wool plates form a protrusion 3 (depending on the reciprocal protrusions and grooves on an adjacent panel, instead of a protrusion 3 in FIG. 3, a groove can be made), and, on the other hand, step protrusions 5.

With a larger number of layers in the corner structural panel, on one side, the grooves and protrusions alternate, and on the other hand, due to the different width of the mineral wool plates, step ledges 5 are made.

For the manufacture of structural panels (hereinafter, panels), a slab of mineral wool hydrophobized non-combustible insulation based on basalt fiber with a density of 75 to 200 kg / m ^{3 is used} . The middle layers of the panels can be made of less dense plates, compared with extreme mineral wool plates.

Mineral wool plates are connected to each other using separate vertical adhesive joints 8 (Fig.1, 3).

Structural panels are made and used as follows.

On the ends of the mineral wool boards 1 (FIGS. 1, 2 or 3, 4) are installed using heat-resistant glue, bearing galvanized steel profiles 2 (hereinafter, profiles 2). Then, on the connected side surfaces of the mineral wool plates 1, separate vertical strips of heat-resistant adhesive are applied (figure 1, 3 shows adhesive joints 8 made in the center and along the edges of the joints of mineral wool boards). Mineral wool plates 1 are interconnected with the formation of the connecting protrusions 3 and grooves 4, the size and location of which can be determined by the location of the panel in the building structure, depending on the size and location of the mating connecting protrusions 3 and grooves 4 of adjacent panels. The implementation of the adhesive joints 8 in the form of vertical stripes can increase the strength of the panel in

vertical direction, and their separate execution allows you to save such characteristics of mineral wool plates in the panel, such as air permeability and vapor permeability associated with the microclimate in the room made of such panels.

The shape of the profiles 2 and their location on the ends of the mineral wool plates 1 is determined depending on the location of the plate in the panel body, which excludes the formation of cold bridges in the panels themselves and mounting joints.

The installation of the lower tier of the panels is carried out on the horizontal surface of the edge of the strip foundation through a steel bent profile of an angular or channel section or a wooden tie bar. Profiles of 2 panels are attached to the lower harness and in height between each other (Fig. 5), including in the corners (Fig. 6), through steel connecting elements made of galvanized steel 6 on self-tapping galvanized screws 7.

The use of non-combustible insulation based on basalt fiber provides high heat-shielding properties, the bearing capacity of structural panels allows them to be used as fireproof load-bearing structures of buildings up to two floors high, subject to the regulatory thermal characteristics of the exterior walls of buildings (SNiP II-3-79 * "Construction heat engineering" )

The manufacturability of building construction is achieved due to the following factors:

- the small weight of the panels and the dimensions allow for manual installation, without the use of hoisting mechanisms, their temporary fixation and alignment is simplified; there is no need for massive foundations: construction is possible under almost any engineering-geological conditions of the site;

- installation using fasteners through steel connecting plates on self-tapping screws does not require highly qualified personnel, the use of welding equipment, and “wet” processes;

- the design of the joints of the panels practically does not require additional sealing.

Claims (9)

1. A multilayer structural panel with connecting protrusions and / or grooves, consisting of mineral wool plates connected to each other with supporting steel profiles mounted on them, while the connecting protrusions and / or grooves are formed by adjacent mineral wool plates. 2. The multilayer panel according to claim 1, characterized in that as mineral wool boards, a heater based on basalt fiber with a density of 75 to 200 kg / m ^{3 is used} . 3. The multilayer panel according to claim 1, characterized in that the mineral wool boards are connected to each other using separate vertical adhesive joints. 4. A multilayer structural panel consisting of three mineral wool plates connected to each other with supporting steel profiles mounted on them, while mineral wool plates form a protrusion and / or groove on both sides of the structural panel. 5. The multilayer panel according to claim 4, characterized in that as mineral wool boards, a heater based on basalt fiber with a density of 75 to 200 kg / m ^{3 is used} . 6. The multilayer panel according to claim 4, characterized in that the mineral wool boards are connected to each other using separate vertical adhesive joints. 7. A multilayer structural corner panel consisting of three mineral wool plates connected to each other with load-bearing steel profiles mounted on them, while mineral wool plates form a protrusion or groove on one side of the structural panel and, on the other hand, stepped protrusions. 8. The multilayer panel according to claim 7, characterized in that as mineral wool boards a heater based on basalt fiber with a density of 75 to 200 kg / m ^{3 is used} . 9. The multilayer panel according to claim 7, characterized in that the mineral wool boards are connected to each other using separate vertical adhesive joints.