RU97407U1 - MULTI-LAYERED WALL-PROTECTING WALL DESIGN - Google Patents

Abstract

 1. A multilayer enclosing wall structure comprising an outer facing layer and an inner supporting layer interconnected by bonds, as well as a heat-insulating layer located between the outer and inner layers, characterized in that an air gap is made between the outer facing layer and the heat-insulating layer, the inner bearing the layer is made of raw clay brick or monolithic clay concrete, on the inner surface of which a clay plaster layer and a decorative layer are successively applied willow environmentally friendly plaster. ! 2. The multilayer enclosing wall structure according to claim 1, characterized in that the outer facing layer is made of ceramic brick. ! 3. The multilayer enclosing wall structure according to claim 1, characterized in that the outer facing layer is made of silicate brick. ! 4. The multilayer enclosing wall structure according to claim 1, characterized in that the outer facing layer is made of wooden lining. ! 5. The multilayer enclosing wall structure according to claim 1, characterized in that the heat-insulating layer is made of environmentally friendly insulation based on flax and / or hemp and / or sheep wool.

Description

The utility model relates to construction, namely, to multilayer enclosing wall structures, and can be used in the construction of buildings and structures as a supporting structure.

Known multi-layer enclosing wall structure [1], containing the outer cladding layer and the inner supporting layer, interconnected by a heat-insulating layer, the structure has any shape and profile, the outer cladding layer is made of compacted foam concrete, the inner bearing layer is made of reinforced concrete frame, and a heat-insulating layer of the frame on large porous aggregates for the removal of condensation moisture, porous concrete and foam concrete, while all layers are interconnected seamlessly, Moreover, the outer facing layer can be invoice or painted with paints and varnishes depending on the purpose and operating conditions.

Closest to the technical nature of the proposed technical solution is the well-known multilayer enclosing wall structure [2], containing the outer cladding layer and the inner supporting layer interconnected by bonds, as well as a heat-insulating layer located between the outer and inner layers, while the outer facing layer it is provided with a layer of shotcrete on the inside, the inner bearing layer is made of reinforced shotcrete, and the bonds, mainly horizontally oriented, are filled, mainly in the form of rods, and connected to the reinforced inner layer of shotcrete, the design provided with dowels formed by through holes in the heat-insulating layer, filled with concrete, mainly shotcrete, and made mainly in the places of passage of connections connecting the inner and outer layers .

A disadvantage of the known structures is the lack of ability to self-regulate humidity inside the room and ensure a balance of humidity, which worsens the conditions of stay in the room.

The state of human health largely depends on the humidity in the room.

It is proved that the humidity in the room should not be lower than 40% and not higher than 70%.

However, it is well known that the relative humidity in our apartments and houses, in winter, does not exceed 35%.

It is impossible to increase indoor air humidity in the winter due to air exchange. This can be achieved by returning moisture to building materials of walls, ceilings, floors.

Building materials are able to absorb water vapor from moist air and give back, thereby ensuring a balance of humidity in the room.

Moisture absorption by building materials from the air is due to the polymolecular adsorption of water vapor on the inner surface of the pores and capillary condensation.

The technical result, which is to ensure self-regulation of humidity inside the room and improve environmental friendliness, in the proposed multilayer enclosing wall structure containing an outer facing layer and an inner supporting layer interconnected by bonds, as well as a heat-insulating layer located between the outer and inner layers, is achieved by that between the outer facing layer and the insulating layer there is an air gap, the inner bearing layer is made of raw clay to rpicha or clay-reinforced, on the inner surface of which is successively deposited a layer of clay and the layer of decorative plaster clean plaster.

In this case, the outer facing layer is made of ceramic or silicate brick or wooden lining, and the insulating layer is made of environmentally friendly insulation based on linen, and / or hemp, and / or sheep wool.

The essence of the proposed utility model is illustrated in the drawing, which shows a multi-layer walling.

The proposed multilayer enclosing wall structure includes an outer facing layer 1, behind which is an air gap 2, a heat-insulating layer 3, and an inner supporting layer 4, interconnected by bonds, for example reinforcing rods (not shown in the drawing). The inner carrier layer 4 is made of raw clay brick or monolithic clay concrete. On the inner surface of layer 4, clay plaster layer 5 and decorative ecologically clean plaster layer 6 are successively applied.

The outer facing layer 1 is made of ceramic or silicate brick.

The heat-insulating layer 3 is made of environmentally friendly insulation based on flax and / or hemp and / or sheep wool.

For layer 6, LEM colored decorative plaster dry mixes with improved environmental friendliness are used.

The proposed multilayer enclosing wall structure is being erected directly at the construction site. In the construction of the proposed design, the outer facing layer 1 is first performed, for example, in the form of a stone layer of ceramic or silicate brick with reinforcing elements in the form of a grid and with the installation of rigid ties from reinforcing elements in the form of rods (not shown in the drawing). Subsequent construction work is carried out from within the building as follows. On the inner side of the facing layer 1, a heat-insulating layer 3 of ecological insulation based on linen, and / or hemp, and / or sheep wool with an air gap 2 is laid.

Next, the construction of the inner supporting layer 4 of raw clay brick or monolithic clay concrete is carried out and a layer of clay plaster 5 and layer 6 of decorative ecologically clean plaster are successively applied.

Thus, a wall structure with improved environmental performance is formed.

It has been experimentally proved that clay materials (raw brick, clay plaster and mortar) have an increased sorption intensity compared to traditional building materials (burnt brick, heavy and lightweight concrete with cement bonding, silicate brick, wood materials).

Field experiments on the study of humidity conditions, conducted over a period of 5 years on one of the houses with dirt walls, showed that the relative humidity in the room fluctuated from 45% to 55% during the year. Due to the high intensity of adsorption and desorption of clay materials, the process of controlling humidity in the room proceeded efficiently, which allowed creating a favorable microclimate for living.

The proposed multilayer enclosing wall structure allows to improve the conditions of a person's stay in the room, because allows you to create a favorable microclimate in a room with a relative humidity of 45-55%, and provides a reduction in material and energy resources for the construction.

Information sources:

1. RF patent No. 73360, IPC EV04/84 dated January 16, 2008.

2. RF patent №52878, IPC ЕВВ 2/00 dated December 29, 2005.

Claims (5)

1. A multilayer enclosing wall structure comprising an outer facing layer and an inner supporting layer interconnected by bonds, as well as a heat-insulating layer located between the outer and inner layers, characterized in that an air gap is made between the outer facing layer and the heat-insulating layer, the inner bearing the layer is made of raw clay brick or monolithic clay concrete, on the inner surface of which a clay plaster layer and a decorative layer are successively applied willow environmentally friendly plaster. 2. The multilayer enclosing wall structure according to claim 1, characterized in that the outer facing layer is made of ceramic brick. 3. The multilayer enclosing wall structure according to claim 1, characterized in that the outer facing layer is made of silicate brick. 4. The multilayer enclosing wall structure according to claim 1, characterized in that the outer facing layer is made of wooden lining. 5. The multilayer enclosing wall structure according to claim 1, characterized in that the heat-insulating layer is made of environmentally friendly insulation based on flax and / or hemp and / or sheep wool.