RU72495U1 - WALL PANEL - Google Patents

Abstract

The utility model relates to construction. The wall panel is a prismatic block of a layered structure, having an outer layer, an inner layer and a layer of heat-insulating filler between the outer and inner layers of the block, as well as reinforcing mesh at the boundary between the filler layer and the outer and inner layers of the block. The filler layer is mineral wool or the filler layer is made of foam, the outer and inner layers are made of concrete, while the thickness of the outer layer is greater than the thickness of the inner layer, and the reinforcing mesh is placed inside the concrete of the outer and inner layers and connected by reinforcing transverse elements. 2 ill.

Description

The utility model relates to construction and relates to the construction of a lightweight multi-layer wall panel used as a supporting element in the construction of low-rise buildings and low-rise structures.

Known three-layer wall panel, including extreme concrete and intermediate heat-insulating layers made on the basis of large porous aggregates (RU 2154135, ЕСС 2/26, 1998). The use of porous fillers in a known wall panel can significantly improve its thermal performance and facilitate it. To increase the adhesion strength of the panel layers, the outer concrete and heat-insulating layers, laid in the form at the same time, are subjected to vibration, and the inner concrete layer after laying it on top of the heat-insulating layer is compressed. Under the influence of intense vibration and compaction, the solution binds from the surface of the porous aggregate to swell, filling voids between its individual grains and compacting the concrete mixture at the boundary of each layer, which, in turn, leads not only to an increase in adhesion between concrete layers, but also to a significant stratification of each concrete layer, including thermal insulation, and as a result to increased heterogeneity of properties over the entire thickness of the panel, a noticeable deterioration in its heat insulating characteristics.

In another well-known three-layer wall panel, consisting of inner and outer reinforced concrete layers and a middle heat-insulating layer of effective insulation (SU 1392225, Е04С 2/26, 1987), rigid reinforced bonds in the form of dowels made of heavy concrete are used to connect the outer concrete layers. This technical solution allows to increase the heat resistance of the panel and the relative protection of the reinforcing bars of the keys from corrosion. However, due to the high thermal conductivity of reinforced concrete dowels in excess of 2.0

W / m ° C, significantly reduces the effectiveness of the use of insulation, the heat transfer resistance of the wall panel as a whole. In addition, such a panel has a lot of weight.

Known three-layer wall panel, including reinforced outer and inner concrete layers and an intermediate heat-insulating layer of expanded polystyrene, connected by flexible metal bonds (SU 1670061, Е04С 2/26, 1989). The use of flexible metal bonds, despite the high thermal conductivity of the metal (for reinforcing steel - 58 W / m ° C), makes it possible to produce panels with higher indices of thermotechnical uniformity due to the relatively small area of the bonds, due to which heat losses in wall panels containing such bonds noticeably less than in panels with rigid bonds in the form of concrete dowels. However, when installing the known panel, it is possible not only to displace the inner and outer concrete layers relative to each other, but also to crush a low-density heat-insulating layer of expanded polystyrene foam, the average density of which does not exceed 30 kg / m ³ , and the strength at 10% compression is 1, 5 kg / cm ² .

This utility model is aimed at solving the technical problem of creating a thin-shell design of a panel that can absorb loads sufficiently to use it as a construction panel in the construction of buildings up to 5 floors.

The technical result achieved in this case is to reduce weight while maintaining the strength and heat-insulating qualities of the panels for their use in the construction of low-rise buildings.

The specified technical result is achieved by the fact that in the wall panel, which is a prismatic block of a layered structure, having an outer layer, an inner layer and a layer of heat-insulating filler between the outer and inner layers of the block, as well as reinforcing mesh at the boundary between the filler layer and the outer and inner layers block, the filler layer is mineral wool or the filler layer is made of foam, the outer and inner

the layers are made of concrete, while the thickness of the outer layer is greater than the thickness of the inner layer, and the reinforcing mesh is placed inside the concrete of the outer and inner layers and interconnected by reinforcing transverse elements.

At the same time, metal embedded plates and / or angles attached to the reinforcing meshes are placed in the corners of the block, and each reinforcing mesh along the perimeter is attached to the elements of the rectangular bar frame.

A rectangular through hole may be made in the block, framed around the perimeter by an outer concrete layer, inside of which a closed reinforcing contour is placed along this perimeter.

Concrete for the outer layer of the block is weatherproof, and a decorative layer can be attached to the surface of the inner layer of the block.

These features are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present utility model is illustrated by a concrete example, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result by the given set of features.

Figure 1 - General view of the panel with a partial cutaway;

figure 2 - section aa in figure 1.

According to this utility model, a wall panel is considered, which is an external wall structure used for the construction of low-rise buildings and structures.

The wall panel is a prismatic block of a layered structure having an outer layer 1, an inner layer 2 and a layer of heat-insulating filler 3 between the outer and inner layers of the block. The outer and inner layers are made of concrete, while the thickness of the outer layer is made greater than the thickness of the inner layer. Outer

the layer of the block is made weatherproof. Concrete for the inner layer can also be weatherproof. And on the surface of the inner layer, a decorative layer can be attached.

An reinforcing mesh 4 is placed inside the concrete of each of these layers. Reinforcing meshes of 4 concrete layers are connected by reinforcing transverse elements 5 to form a spatial mesh structure. Each reinforcing mesh around the perimeter is attached to the elements 6 of the rod rectangular frame 7, which holds the mesh in a straightened state. In concrete layers, the reinforcing mesh is shifted to the boundary of the contact of the filler layer to the outer and inner layers of the block. And in the corners of the block there are placed metal embedded plates and / or angles 8 attached to the reinforcing meshes 3 or the rod frames 7. The rod frames, meshes, angles and reinforcing transverse elements form a power core frame on which the concrete shell is held.

The filler layer is mineral wool (molded or consisting of several layers of cotton wool glued together) or the filler layer is made of foam or other lightweight material with a low specific gravity and good thermal insulation properties.

The panel can be made with a rectangular through hole, for example, a window framed around the perimeter by an outer concrete layer, inside of which a closed reinforcing contour is placed around this perimeter.

For the manufacture of such a panel, concrete of at least M 350 brand is used, foam slabs (made of polystyrene foam) or mineral wool slabs (mineral wool slabs - miniplates), mesh, reinforcing bars, embedded corners or plates - from the arsenal of means used in the production of concrete slabs.

The procedure for manufacturing a three-layer wall panel is as follows. On the bottom of the form on the clamps, a metal mesh 3 is placed in the frame 7 for the outer layer and around the perimeter it is normal to the bottom of the form

metal mesh 7 for reinforcing the outer layer. Then, filler is installed on the mesh on the clamps, and another metal mesh 3 is remotely placed on top of the filler in frame 7 for the inner layer. Set the embedded plates and / or corners and carry out welding the connection of all metal elements to each other. Grids are reinforced with transverse bar ties. Then concrete is fed into the mold and, using vibration, the mold and cavities of the reinforced framework are completely filled with concrete. After smoothing the outer surface of the block.

The use of the proposed three-layer wall panel allows to significantly improve the operational characteristics of walling by using lightweight and effective insulation - mineral wool or foam, which provides a heat-insulating intermediate layer of the panel with high strength (due to the spatially welded lightweight core reinforcement) and thermal performance.

The resulting panel has a high load-bearing capacity while providing thermal insulation, the thermal resistance of the panels with a thickness of the insulation layer of 200 mm is 3.5 m2 g.C / W, with a panel area of 14.85 m ² , its weight is only 52 kg.

This utility model is industrially applicable; at present, the production of panels for the construction of low-rise buildings has begun.

Claims (6)

1. The wall panel, which is a prismatic block of a layered structure, having an outer layer, an inner layer and a layer of heat-insulating filler between the outer and inner layers of the block, as well as reinforcing mesh at the boundary between the filler layer and the outer and inner layers of the block, characterized in that the layer the filler is mineral wool or the filler layer is made of foam, the outer and inner layers are made of concrete, while the thickness of the outer layer is greater than the thickness of the inner of the layer, and the reinforcing grid placed within the concrete outer and inner layers and are interconnected by transverse reinforcement elements. 2. The panel according to claim 1, characterized in that in the corners of the block placed outward metal embedded plates and / or corners attached to the reinforcing mesh. 3. The panel according to claim 1, characterized in that a rectangular through hole is made in the block, framed around the perimeter by an outer concrete layer, inside of which a closed reinforcing contour is placed around this perimeter. 4. The panel according to claim 1, characterized in that each reinforcing mesh around the perimeter is attached to the elements of the rectangular bar frame. 5. The panel according to claim 1, characterized in that the concrete for the outer layer of the block is made weatherproof. 6. The panel according to claim 1, characterized in that a decorative layer is attached to the surface of the inner layer of the block.