RU92054U1 - PANEL WALL OR OVERLAP - Google Patents

Abstract

1. A panel wall or ceiling containing the main three-layer panels docked at the ends, in each of the main panels along the perimeter a groove is made with a depth of 30 to 80 mm and a width equal to the thickness of the heat-insulating layer of the main panel, in the space formed by the joined main panels, wooden composite profiled bars and thermal inserts, which are auxiliary three-layer panels, and the outer layers of each of the main or auxiliary panel are made of oriented chips second plate, and the main insulating layer or auxiliary panels made of expanded polystyrene. ! 2. The wall or ceiling according to claim 1, characterized in that the space formed by the docked main panels and filled with a bar and a thermal insert is sealed with either mounting foam or sealant. ! 3. The wall or ceiling according to claim 1, characterized in that the main panels and bars or thermal inserts are connected using fasteners, such as nails, brackets, screws. ! 4. The wall or ceiling according to claim 1, characterized in that the wooden composite profiled bars are made of at least two bars connected to each other, in each of which transverse grooves are axisymmetrically made on adjacent surfaces.

Description

The utility model relates to the construction materials industry, used in particular in low-rise construction and can be used in the construction of civil and industrial facilities with high requirements for heat and sound insulation of premises, for example, residential buildings, cottages and other buildings.

A known construction of a wall made of three-layer panels with insulation, including flat cladding, installed with an offset along the width of the panel, the upper and lower end ribs, and the insulation is made in the form of a rigid mineral wool plate, and the lower rib with two longitudinal grooves, the depth of which is not more than three sizes of their width and docked using the insert / RU 2037614, Е04С 2/26, 1995, Fig. 5 /. This design allows you to equalize the temperature on the field of the wall by increasing the thermal characteristics of the joint.

The disadvantages of the known design include the fact that it can only be used for wall cladding and cannot be used to create load-bearing structures (walls and ceilings).

Closest to the claimed utility model is the design of a panel wall made of structural multilayer panels consisting of layers of wood-containing materials with a heat-insulating layer located between them. On the front side between the layer of wood-containing material and the insulating layer there is a layer of extruded polystyrene foam. The connection of the structural multilayer panel with a wooden beam is made by introducing the beam into the groove of the panel with preliminary lubrication of the contact surfaces with glue. Additional fastening of the layers, as well as the inner layer to the timber with self-tapping screws / RU 55392, E04C 1/40, 2006, Fig. 1 / is allowed. This design is selected as a prototype.

The disadvantages of the prototype include, firstly, heat loss at the joints, and secondly, significant power stresses at the joints associated with warping (twisting) of the beam when it dries.

The objective of the utility model is to create a panel wall or floor devoid of these drawbacks. The technical result of the utility model is to reduce heat loss and power stresses of the structure.

To solve the problem, as well as to achieve the claimed technical result, a panel wall or ceiling is proposed, containing the main three-layer panels docked at the ends. In each of the main panels around the perimeter, a groove is made with a depth of 30 to 80 mm and a width equal to the thickness of the insulating layer of the main panel. In the space formed by the docked main panels, wooden composite profiled bars and thermal inserts are placed, which are auxiliary three-layer panels. Moreover, the outer layers of each of the main or auxiliary panel are made of oriented chipboard, and the insulating layer of the main or auxiliary panel is made of polystyrene foam.

Additionally, it is proposed to seal the space formed by the docked main panels and filled with a bar and a thermal insert with either mounting foam or sealant.

Additionally, it is proposed to connect the main panels and bars or thermal inserts with the help of fasteners, for example, nails, brackets, self-tapping screws. It is also additionally proposed that wooden composite shaped bars be made of at least two bars connected to each other, in each of which transverse grooves are axially symmetrically made on adjacent surfaces.

Figure 1 shows a cross section of a panel wall or wall, figure 2 shows a longitudinal section of a docked profiled bar, figure 3 shows a part of the assembled structure, where 1, 2, 3, 4, 5 and 6 are the main three-layer panels, 7 - a wooden composite shaped block, 8 - thermal insert, 9 - fasteners, 10 - transverse grooves of the bars, 11 - foundation beam, 12 - strapping beam, 13 - foundation, 14 - beam for framing the panel.

The wall or ceiling is assembled as follows.

Overlap:

The overlap is assembled from panels 4 (Figure 3), having a spike on one short side (thermal insert 8, or double beam 7), and a groove on the other three. The first row of overlap is laid on the foundation beam 11 and fixed on it with fasteners (screws) of the corresponding length. Each subsequent row of floor panels joins the previous one through the beam (double beam) 7. All joints are foamed with mounting foam and fastened with self-tapping screws 6.

Wall:

Wall panels are attached with the lower part to the strapping beam 12, which is pre-installed on the foundation 13, or the overlap of the panels 4. The wall is assembled from the corner. The first corner panel 5 is installed, then to it at an angle of 90 degrees. the second corner panel 6 is joined. The joint is foamed and fixed with screws of the appropriate length. Further assembly of the walls is carried out according to the principle of groove-spike so wall panels have a groove on one side and a spike from a thermal insert or double beam on the other. All window or doorways are framed by a beam 14 around the perimeter - flush with the edge of the panel.

Claims (4)

1. A panel wall or ceiling containing the main three-layer panels docked at the ends, in each of the main panels along the perimeter a groove is made with a depth of 30 to 80 mm and a width equal to the thickness of the heat-insulating layer of the main panel, in the space formed by the joined main panels, wooden composite profiled bars and thermal inserts, which are auxiliary three-layer panels, and the outer layers of each of the main or auxiliary panel are made of oriented chips second plate, and the main insulating layer or auxiliary panels made of expanded polystyrene. 2. The wall or ceiling according to claim 1, characterized in that the space formed by the docked main panels and filled with a bar and a thermal insert is sealed with either mounting foam or sealant. 3. The wall or ceiling according to claim 1, characterized in that the main panels and bars or thermal inserts are connected using fasteners, such as nails, brackets, screws. 4. The wall or ceiling according to claim 1, characterized in that the wooden composite profiled bars are made of at least two bars connected to each other, in each of which transverse grooves are axisymmetrically made on adjacent surfaces.