RU173026U1 - 3D wall panel - Google Patents

Abstract

The utility model solves the problem of improving the waterproofing and vapor barrier properties of the panel, reducing material consumption during concreting, as well as simplifying the installation of panels. The 3D wall panel contains a solid core in the form of a filler layer 1 made of heat and / or sound insulating material. On both sides of the core 1 parallel to its surfaces are wire mesh 2 and 3 with a gap of 4 and 5 relative to its surfaces. Straight support elements 6 are located at an angle of 7 to the plane of the grids 2 and 3, pass through the filler 1 and attached to the wire mesh 2 and 3. On the surface of the core 1 from the side of the grids 2 and / or 3 applied waterproofing composition 8. To one or more ends core 1 attached layer is less rigid than the material of the core 1, an elastic heat-insulating material 9.

Description

The utility model relates to construction, namely the manufacture of three-dimensional panels of fixed formwork, which can be used for the construction of structures for various purposes.

Known wall 3D panel containing the core in the form of a continuous layer of filler, wire mesh, located on both sides of the core parallel to its surfaces and with a gap relative to its surfaces, support elements passing through the filler, as well as at an angle to the plane of the mesh, are attached to the support elements wire mesh [1].

In the manufacture of the known structural panel [1], additional protective coatings of the core are not applied, which does not ensure its safety during storage, transportation and installation, as well as after applying concrete that is vapor permeable, the core is susceptible to penetration of vapors from the room, while the removal of vapors is complicated by the outer layer concrete, which entails the need to use concrete with an increased grade for water resistance or surface creation of a vapor-tight layer, and, as a result, a rise in price; the use of an elastic filler, for example expanded polystyrene, increases the rebound of the aggregate in concrete, installation of panels in the absence of a less rigid layer at the ends is more laborious.

The technical task is to improve the waterproofing and vapor barrier properties of the panel, to reduce the material consumption during concreting, as well as to simplify the installation of panels.

As shown in FIG. 1 embodiment, a three-dimensional wall 3D panel contains a solid core in the form of a layer of filler 1 made of heat and / or sound insulating material, for example, light plastic, foamed synthetic resin, polyurethane, or polystyrene, or hard mineral wool, or cellulose-based material. On both sides of the core 1 parallel to its surfaces are wire mesh 2 and 3 with a gap of 4 and 5 relative to its surfaces. Straight support elements 6, for example, glass composite or metal reinforcement, are located at an angle of 7 to the plane of the nets 2 and 3, pass through the filler 1 and attached to the wire nets 2 and 3. A waterproofing composition is applied to the surface of the core 1 from the side of the nets 2 and / or 3 8. To one or several / all ends of the core 1, on top of the supporting elements 6, a layer is attached that is less rigid than the material of the core 1, of an elastic heat-insulating material 9.

Grids 2 and 3 can be square, rectangular or round mesh with a size of 25 × 25 mm, and the thickness of the core 1 can be from 20 to 300 mm.

Thus, the proposed wall 3D panel improves the waterproofing and vapor barrier properties of the panel, because It does not require additional protection of the panels during storage, transportation and installation of panels, it does not require the use of special shipbuilding and other concrete with a high water resistance mark or the creation of a surface vapor-proof layer, it reduces material consumption during concreting, because the waterproof layer has more rigidity than the core, which reduces the rebound of the aggregate in concrete, simplifies the installation of panels, because does not require additional tightening devices during installation, as a less rigid layer of elastic thermal insulation material at the ends of the panel allows you to compensate for possible gaps without additional effort.

Information sources:

1. Patent for PM US 6705055 B2, March 16, 2004 (analogue).

Claims (4)

1. Wall 3D panel containing the core in the form of a continuous layer of filler, wire mesh located on both sides of the core parallel to its surfaces and with a gap relative to its surfaces, support elements passing through the filler, as well as at an angle to the plane of the mesh, to the support elements attached wire mesh, characterized in that the supporting elements are made of separate rectilinear rods, the core of a solid filler is treated with a waterproofing composition. 2. Wall 3D panel according to claim 1, characterized in that a layer of elastic heat-insulating material is attached to the core to one or more ends. 3. Wall 3D panel according to claim 1, characterized in that the supporting elements are made of glass composite or metal reinforcement. 4. Wall 3D panel according to claim 1, characterized in that the continuous layer of filler has a thickness of from 20 mm to 300 mm

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