RU174708U1 - THREE-LAYER WALL PANEL - Google Patents

Abstract

The utility model relates to construction, namely to multilayer wall panels used in large-panel housing construction. A three-layer wall panel contains inner and outer concrete layers, between which a heat-insulating layer is placed. Expanded clay concrete with a steel frame is used as the inner layer, to which metal flexible ties are attached in the form of reinforcing bars, arranged to combine the bearing layer with other layers. As a heat-insulating layer, foam glass was used with the device of air channels parallel to the plane of the panel, which ensures a decrease in the consumption of insulation and an increase in its heat-insulating properties, while the channels are arranged through. Fiberglass concrete made of cement concrete on dense aggregates with alkali-resistant fiberglass, which can be applied both at the factory and at the construction site, is used as the outer layer. The technical result of the utility model is to increase the heat-shielding properties of the panel while reducing its weight.

Description

The utility model relates to construction, namely to multilayer wall panels used in large-panel housing construction.

Known three-layer wall panels used in large-panel house-building patents of the Russian Federation No. 1670061, 100790, 2191239, 107209, 2204666, 2209899, 2098377, 2033504, 2373346; USSR copyright certificate No. 1735527, 1724831, 1377349; US patent No. 4359848, 2248348, 5365716; Belarus patent No. 4953.

Known wall, selected as a prototype, (RF Patent No. 2258788, E04C 2/26), which consists of a reinforced outer and inner concrete layers and an intermediate heat-insulating layer connected by flexible metal bonds. The heat-insulating layer is made of "capsimet" - coarse-porous concrete on a light porous aggregate encapsulated with a binder, binding the filler grains coated with a binder shell in a monolithic layer; the outer concrete layer is made of high-strength concrete of grade ≥ M500, the inner concrete layer is made of expanded clay concrete with a steel frame made of a rectangular or square pipe in the form of a closed rectangular frame with jumpers located around the perimeter of the panel and recessed into the expanded clay concrete layer to a depth of 15 to 25 mm from the plane of the inner surface of the panel, with the opposite ends of the steel pipes of the greater side of the frame extended to the side surfaces of the panel and made open as mounting openings, and the reinforcing mesh of the outer layer is connected to the frame of the inner layer along its contour with flexible bonds made in the form of a coarse mesh.

The disadvantage of the prototype is insufficiently high insulating properties and high weight, which is due to the high coefficient of thermal conductivity of the capsimet (thermal conductivity of the order of 0.12 W / m⋅ ° C) and high density of this material (from 400 kg / m ₃ to 600 kg / m ₃ ).

The technical task of the utility model is to increase the heat-shielding properties of the panel while reducing its weight.

The problem is solved in that in a three-layer wall panel as a heat-insulating layer used foam glass with the device of air channels located in the plane of the panel.

до

а также существенно меньшей плотностью от 120 кг/м₃ до 140 кг/м₃, что позволяет получить трехслойную стеновую панель значительно более легкую, с лучшими теплоизолирующими свойствами.Foam glass has the best heat-insulating characteristics, the coefficient of thermal conductivity is from

before

as well as a significantly lower density from 120 kg / m ₃ to 140 kg / m ₃ , which makes it possible to obtain a three-layer wall panel much lighter, with better heat-insulating properties.

Наличие воздушных каналов также снижает вес трехслойной панели.The device of the air channels allows you to further increase the insulating properties of the intermediate layer, since the coefficient of thermal conductivity of air

The presence of air channels also reduces the weight of the three-layer panel.

Additionally, the weight reduction of the panel is created using fiberglass concrete as the material of the outer layer. The addition of fiber leads to an increase in crack resistance, impact strength, frost resistance and water resistance of the structure, which allows the outer layer to be made thinner.

The technical result of the utility model is to increase the heat-shielding properties of the panel while reducing its weight.

The utility model is illustrated by drawings. In FIG. 1 shows the proposed three-layer panel in section, in FIG. 2 shows a general view of the panel; FIG. 3 shows the types of panels.

The three-layer wall panel contains an inner layer 1, a heat-insulating layer 2 and an outer layer 3. As an inner layer 1, expanded clay concrete with a steel frame 4 is used, to which metal flexible ties 5 are attached in the form of reinforcing bars arranged to merge the layers. As a heat-insulating layer 2, foam glass was used with the device of air channels 6 located in the plane of the panel, which ensures a decrease in the consumption of insulation and an increase in its heat-insulating properties, while the channels 6 are arranged through. As the outer layer 3 used fiberglass concrete.

In addition, the steel frame 4 in the inner layer 1 is made of hot-rolled reinforcement of the required diameter calculation, to which are attached metal flexible connections 5 in the form of reinforcing bars,

In addition, for the outer layer 3 of the proposed wall panel used fiberglass concrete. For its manufacture, cement concrete is used on dense aggregates with alkali-resistant fiberglass, previously chopped into segments. The addition of fiber 7 leads to an increase in crack resistance, impact strength, frost resistance and waterproof structure.

The procedure for manufacturing a three-layer wall panel is as follows. At the bottom of the mold on the clamps, a metal mesh 4 with metal flexible connections fixed to it 5 is laid. After installing the mesh 4, the inner layer 1 of expanded clay concrete is laid. Then install a layer of insulation 2, in which the air channels are formed by laying a fiberglass profile. After that, the outer layer 3 of fiberglass concrete is applied using shotcrete.

For the construction of buildings, two types of panels are used: the main panel 8 and the corner panel 9, which are installed on the foundation 10 or floor.

Thus, the proposed design of the wall panel in comparison with other structures of a similar purpose provides an increase in its thermal insulation properties and weight reduction.

Claims (1)

A three-layer wall panel, including reinforced concrete layers, such as an outer layer, an inner layer made of expanded clay concrete, and an intermediate heat-insulating layer connected by flexible metal bonds, characterized in that the intermediate layer is made of foam glass with air channels located in the plane of the panel, this channels are arranged not through, and the outer layer is made of fiberglass concrete.

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