RU109166U1 - MULTI-LAYER WALL OF THE BUILDING WITH FACADE PANELS OF VERTICAL CUTTING - Google Patents

Abstract

 The multilayer wall of the building, consisting of the outer layer formed by reinforced concrete facade panels of vertical cut, and the load from the facade panel is transferred directly to the foundation beam, and the mounting loops of the panel are connected to the attic with two steel ties, characterized in that the facade panel also performs the function the bearing part of the wall, since a heat-insulating layer is attached to its inner surface with the subsequent application of an inner layer in the form of plaster on the grid.

Description

Known multilayer wall of a two-story building, consisting of an outer wall formed by facade panels two floors high, and an inner wall of small-sized wall materials and insulation placed between them [1] (prototype). The load from the front panel with a height of two floors is transferred directly to the foundation beam, and the mounting loops of the panel are connected to the attic floor using two steel ties.

When using facade panels in the construction of industrial and public buildings, a similar design can be very material-intensive, since the inner shell of the wall, made in the form of masonry from small-piece materials, must have a significant thickness in order to ensure stability at a considerable height, which, most often, buildings have marked type. This leads to increased loads on foundations and construction costs.

Known horizontal wall panels for industrial buildings, when they are hung on columns placed in increments of 6 or 12 meters [2].

The disadvantages of wall panels horizontal cutting:

load transfer to the columns, which leads to an increase in their cross section;

a significant distance between the columns requires a large number of bonds (flexible or dowels) between the inner and outer shells of three-layer panels, which affects their heat-shielding properties.

Known for the design of the wall of a layered assembly of steel profiled sheets [3]. But their installation requires horizontal fachwerk elements on which sheets are hung, i.e. transfer the load from its own weight. Half-timbered steel elements are significant heat-conducting inclusions.

When erecting multilayer outer walls, a design is used when, after fixing the insulation to the outer surface of the wall bearing shell, plaster is applied to its surface on a grid [4].

The main disadvantage of walls with a thermal insulation system fastened on the outside is their fragility [5], since the layer of plaster on the insulation is exposed to the variable influence of climate elements.

The objective of the utility model is to develop a lightweight durable wall structure using a similar front panel [1], which can be used in the construction of industrial and public buildings of the frame type, with low relative humidity of the internal air. When applying the proposed wall solution, a preliminary calculation of the humidity regime of the structure should be performed to make sure that the fence does not require a layer of vapor barrier material.

An essential sign is that the front panels of vertical cuts transmit not only the load from their own weight to the foundation beam, but also from the insulation boards attached to their internal surfaces, and from the plaster along the grid, which is subsequently applied to the insulation surface. The technical result obtained in this case is expressed in a decrease in material consumption compared to [1] and an increase in durability compared to the thermal insulation system fastened on the outside [5]. The durability of the plaster on the insulation is increased due to the fact that in the building there are no temperature-humidity fluctuations.

The design of a multilayer wall with vertical panels is illustrated by drawings, where Fig. 1 shows a view from the inside of a front panel of a vertical section, and Fig. 2 is a vertical section through a wall.

Symbols adopted in the drawings:

1 - front panel; 2 - embedded parts; 3 - mounting loops; 4 - column; 5 - beam (monolithic slab); 6 - foundation beam; 7 - embedded parts of the foundation beam; 8 - galvanized steel ties; 9 - embedded parts (loops) of beams (monolithic overlap); 10 - thermal insulation; 11 - plaster on a grid mounted on connectors.

Before the erection of the wall, the building frame is mounted, consisting of columns 4 and beams (monolithic slabs) 5.

A multilayer wall consists of a rectangular facade panel 1, made, for example, of reinforced concrete. The panel can be flat or with paired vertical ribs, which is established by comparative economic calculations, provided that the strength during formwork, transportation and installation is ensured. The height of the panel, if it is used in the construction of industrial or public buildings, can be significant (up to 7.2 and more meters), but when choosing this option, transportation conditions should also be taken into account (for example, turning radius). From the side of the inner plane, the panel 1 has embedded parts 2, which, after installing the facade panel on the foundation beam 6, are welded to the embedded parts of the foundation beam 7. After the panel is verified vertically, galvanized steel ties 8 are attached to its mounting loops 3, which are connected to the other end with embedded parts or loops of 9 beams (monolithic overlap). Insulation plates 10 are attached to the inner surface of the facade panels 1 with the help of connectors and glue 10. On the inner surface of the insulation, plaster 11 is applied on a grid fixed to the connectors.

Advantages of a multi-layer wall of a building with vertical panels of front panels:

- the wall design can be used in the construction of frame public buildings with a height of up to two floors, as well as in the installation of single-story industrial and public buildings of a frame type with a significant height, while the load from the wall is transferred directly to the foundation beam;

- unlike walls with heat insulation and plaster bonded on the outside, placement of heat insulation and plaster layer on the inside will ensure the durability of the structure, since the building is subject to a stationary temperature and humidity regime;

- the cost-effectiveness of wall construction Information sources:

1. Patent RU 66758 U1. E04B 2/26, 09/27/2007.

2. Dyatkov S.V., Mikheev A.P. The architecture of industrial buildings. -M.: DIA Publishing House, 1998.

3. Lightweight construction of one-story industrial buildings / E. G. Kutukhtin, V. M. Spiridonov, Yu. N. Khromets. - M.: Stroyizdat, 1988. (Reference designer).

4. Karakozov A. Warm facades / Construction and business. 2001. No.6. P.17 Lobov O.I., Ananiev A.I. Durability of the outer walls of modern high-rise buildings / Housing. 2008. No8. S.48-52.

Claims (1)

The multilayer wall of the building, consisting of the outer layer formed by reinforced concrete facade panels of vertical cut, and the load from the facade panel is transferred directly to the foundation beam, and the mounting loops of the panel are connected to the attic using two steel ties, characterized in that the facade panel also performs the function the bearing part of the wall, since a heat-insulating layer is attached to its inner surface with the subsequent application of an inner layer in the form of plaster on the grid.