RU2072412C1 - Three-layer construction panel - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: these panels are used for external walls, coverings, etc. Reduced amount of metal to manufacture and lower production cost are achieved by applying flexible link members 5 located in mass of warmth-conserving layer made of cellular concrete, and these members are simultaneously components of reinforcement framework 4 with provide stiffening for panel outer layers 1,2. Panel can be manufactured in single form by one operation. EFFECT: high efficiency. 3 dwg

Description

 The invention relates to the construction and can be used as a panel of various building envelopes.

 Known three-layer panel fencing, including external reinforced concrete layers, a layer of insulation between them, combined by flexible connections (ed. St. USSR N 1446252, class E 04 C 2/46, 1988).

 The disadvantage of the known technical solutions is the high consumption of metal, because in addition to flexible metal bonds in concrete layers, working reinforcement and the use of highly efficient heaters are located.

 Closest to the claimed panel in technical essence is a three-layer building panel, including reinforced outer layers and a heat-insulating layer of porous concrete, in which protruding parts of the connecting elements are anchored (ed. St. USSR N 1664990, class E 04 C 2/26, 1991 )

 The disadvantage is the increased consumption of metal due to the large number of bonding elements necessary to hold the outer layer plates during assembly of the panel in the design position and additional reinforcement with the outer layer grids, as well as to the busyness in the manufacture of the panel, since all three of its layers are made separately.

 The objective of the proposed solution is to reduce the metal consumption, improve manufacturability, lower costs.

 The technical result is achieved in that in a three-layer building panel, including plates of the outer layers of reinforced concrete, an internal heat-insulating layer of porous concrete and flexible bonding elements, the latter are simultaneously elements of the reinforcing frame of the panel.

 The difference of the claimed three-layer panels from the known ones is that all panels include separately reinforcing mesh or layer frames and flexible connections, and expensive foam or polystyrene foam is used as a heat-insulating layer. All this leads to an excessive consumption of metal and an increase in the cost of the panel.

 In the prototype (ed. St. N 1664990) the insulation layer is made of porous concrete, as in the claimed panel, but unlike the latter, the number of flexible coupling elements anchored in the insulation layer is quite large, leading to increased consumption of steel if they are made of metal . In addition, flexible bonds have insufficient reliability of anchoring in lightweight concrete with low strength and are not connected with reinforcing meshes of the outer concrete layers, as a result of which the shear strength of the coupling element decreases during transportation, installation and operation.

 In contrast to this solution, in the claimed panel, the role of flexible connections is played by the transverse elements of the panel reinforcement cage, i.e. flexible connections are combined with elements of the frame reinforcing the panel layers. This provides a reduction in metal consumption without reducing the strength of the panel and reducing its cost.

 In FIG. 1 shows a wall panel, general view; figure 2 section aa in figure 1; figure 3 section BB in figure 1.

The three-layer building panel consists of plates of the outer concrete layers 1 and 2 and the inner heat-insulating layer 3 of porous concrete, for example, with a cellular density of 400 600 kg / m ³ . The reinforcing cage 4 is made of steel with a corrosion-resistant coating of the transverse rods. The transverse elements 5 of the frame 4 are molded in a heat-insulating layer 3 and connect the outer layers, acting as flexible connections.

 A three-layer building panel can be made as follows.

 A heater insert 3 is made with monolithic in it of the transverse elements 5 of the frame 4 of flexible connections. The outer concrete structural layer is laid in the mold. A heater is laid on it, while the reinforcing elements of the frame protruding from it from below are included in the concrete of the outer layer. Then, a second concrete layer is laid on top, which monoliths the elements of the reinforcing cage protruding from the heat-insulating layer 3 from above. The panel can be made by molding all 3 layers in one form. For this, concrete of the outer layer is laid at the bottom of the mold, a reinforcing cage is installed, a layer of porous concrete is poured, foamed, then concrete of the second outer layer is laid.

 Due to hydration of the mortar part of the freshly laid concrete of the panel layers, a bond is formed that partially perceives shear loads.

 The use of a three-layer wall panel with flexible ties combined with a reinforcing cage, aerated concrete insulation and simplified manufacturing in one step significantly reduces the cost of the panel, reduces metal consumption.

Claims (1)

 A three-layer building panel, including plates of the outer layers of reinforced concrete, an internal heat-insulating layer of porous concrete and flexible bonding elements, characterized in that the flexible bonding elements are simultaneously elements of a reinforcing cage reinforcing the outer and inner layers of the panel.

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