RU25524U1 - OUTDOOR WALL OF LIGHTED BRICK - Google Patents

Abstract

The outer wall of lightweight masonry, including internal and external walls separated by a layer of effective insulation, characterized in that the bonds between the walls are made of reinforced concrete elements in the form of bars with dimensions that are multiples of bricks, discretely installed over the entire contact area of the layers, and rigidly embedded in the carrier layer masonry.

Description

2000116819

OUTDOOR WALL OF LIGHTED BRICK

The invention relates to the field of civil and industrial construction, namely, to the designs of the outer brick walls of buildings and structures in which the heat-insulating filling is located between two parallel masonry walls connected by hard bonds, and can be used in the construction of residential and public buildings.

Walls are known in which the connection between the outer and inner walls of the masonry is ensured by rigid dressing of the rows with vertical diaphragms formed by issuing from the walls inward the filling of bonded bricks, or horizontal - from the embedded bonded rows 1.

The disadvantages of this solution are the relatively small resistance to heat transfer; the complex structure and the need for additional temperature joints in the outer layer of the masonry; the high complexity of wall construction, associated with the need to bandage the transverse walls of the masonry with the longitudinal through one row; insufficient dressing strength when laying walls of large floors, as well as limiting the height of buildings being erected by 2-5 floors.

A constructive solution is known to the exterior wall of a building, marked as type B masonry, containing a bearing inner layer, a layer of insulation and an outer facing layer associated with the bearing flexible ties 2, sheet 15.

A disadvantage of the known solution is the presence of a height limit (not more than 5 floors), as well as the need to use expensive alloy steel for flexible connections. Various deformations of the walls of the masonry, due to their operation in different temperature conditions, lead to a decrease in the strength (mashing of the seal area) and thermal (mashing of the insulation and formation of an air gap) masonry qualities.

The technical solution closest to the claimed and adopted for the prototype is a masonry of type D with a broadened to 60 (in corners up to 190) mm seam filled with effective insulation. The masonry provides for multi-row dressing according to the type of walls of continuous masonry. The connection between the walls of the masonry, is provided by the laying-in pockets of brick reinforced with flexible ties or reinforcing mesh 2, sheet 18.

The disadvantage of this solution is the low heat-shielding qualities. An analysis of the potential possibilities of type D masonry showed that increasing heat-shielding qualities by increasing the thickness of the insulation or increasing the pitch between the dressing rows is impossible, due to the need to ensure dressing between the walls of the masonry and the necessary strength properties of the wall as a whole.

The objective of the invention is to create a constructive system of the outer wall of lightweight brickwork that meets the requirements of SNiP P-3-79 3, clause 2.1 on thermal protection, which allows the construction of buildings with a height of more than 5 floors, the use of which makes it possible to increase the efficiency of the wall fence.

To solve this problem, in the outer wall of lightweight masonry, containing internal (supporting) and external (bearing or facing) walls separated by a layer of effective insulation, interconnected by rigid bonds made, according to the invention, in the form of reinforced concrete blocks with dimensions that are multiples of bricks regularly installed over the entire contact area of the layers and rigidly embedded in the bearing layer of the masonry.

The analysis of the prior art did not allow to identify an analogue characterized by features identical to all the essential features of the proposed solution, i.e. it meets the condition of novelty.

Reinforced concrete elements divide the height of the outer layer of masonry into separate independent sections and perceive the vertical load of their weight, which allows you to build a wall of any height.

Rigid incorporation of concrete elements into the inner bearing wall and dressing with the outer one eliminates horizontal mutual movements of the walls, prevents bending and deviation of the outer wall, and ensures overall stability of the fence.

The proposed solution provides for the possibility of carrying not only the inner, but also the outer layer of masonry, which allows you to rely on it various facade elements (loggias, balconies, etc.).

The constructive system of the proposed wall allows you to increase the efficiency of the fence, making fuller use of the load-bearing capacity of the masonry due to the redistribution of forces between the walls, and makes it possible to build walls with any thickness of insulation and pitch of dressing rows, while maintaining the necessary strength properties of the wall.

The discrete placement of reinforced concrete elements can improve the heat-shielding qualities of the fence and provide the requirements of SNiP P-3-79 for any climatic region.

This analysis showed the appearance in the invention of properties that do not coincide with the properties of known technical solutions, while all of the listed effects can be achieved by known technical methods, which allows us to conclude that the proposed solution meets the inventive step condition.

The invention is illustrated by the accompanying drawings, where in FIG. 1 shows a vertical section of a wall; in FIG. 2 - horizontal section of the wall along AA with a continuous arrangement of reinforced concrete elements; in FIG. 3 - section along aa with a discrete arrangement of elements; in FIG. 4 appearance of the concrete element and reinforcement scheme.

2Ex. No.

The outer wall of lightweight brickwork consists of an outer (bearing or facing) wall 1 and an inner (bearing) wall 2, the connection between which is made of reinforced concrete elements 3 in the form of bars with dimensions that are multiples of bricks. The wall cavities between the load-bearing elements are filled with effective insulation 4. Concrete elements 3 are rigidly embedded in the internal load-bearing wall of the masonry 2 and are tied to the external wall 1, and can be laid both close to each other and with a regular step along the length of the wall. Structural reinforcement of concrete elements is carried out by a wire frame 5.

The thickness of the outer 1 and inner 2 walls of the masonry, the pitch of the concrete elements 3 along the height and length of the wall, as well as the thickness of the insulation 4 depend on the static function of the wall, the number of storeys of the building, the climatic conditions of the construction site and other factors. The length of the reinforced concrete elements 3 may vary, depending on the thickness of the insulation 4.

The process of wall construction proceeds as follows:

- spread the outer wall of the masonry 1 with a height corresponding to the pitch of the concrete elements 3 vertically;

- install the insulation 4 to the height of the outer wall 1 and press the first row of the inner wall 2; to exclude gaps and horizontal air gaps, the insulation should rise above the masonry by 10-15 mm;

- spread the inner wall of the masonry 2, close to the insulation 4 (preferably with some compression) without forming an air gap and without vapor barrier;

- install reinforced concrete elements 3 - on the mortar, with compression of the insulation 4 and filling the joints; if the insulation rises significantly above the masonry (with non-standard sizes of insulation sheets) it is cut in place;

- lay out the following rows of the outer wall of masonry 1, etc.

The device operates as follows. Each wall element perceives the loads transferred to it: outer wall 1 - vertical load from its own weight and the weight of the wall elements (cornices, balconies, loggias, etc.); inner wall 2 - vertical loads from dead weight, from ceilings and coatings, as well as wind and various random loads, causing a general bending of the building; reinforced concrete element 3, the load from the weight of the overlying section of the outer wall 1 and the load from its uniform temperature heating.

The required level of thermal protection of the fence is provided mainly by a layer of effective insulation 4, which does not take part in the work of the supporting system. The negative effect on the thermal characteristics of the wall of concrete elements 3, which are cold bridges, is reduced due to the redistribution of heat fluxes and equalization of temperature in the thickness of the inner wall of the masonry 2.

3Ex. No. i

the bearing wall and dressing with the outside allows you to more fully use the bearing capacity of the masonry, due to the redistribution of forces between the walls, and provides overall stability of the fence.

The use of reinforced concrete elements for the connection between the walls of the masonry allows for the dressing and the necessary strength properties of the wall for any thickness of the insulation and the pitch of the dressing rows.

Detailed thermotechnical calculations showed that the ability to change the installation step of reinforced concrete elements along the height and length of the wall, as well as the ability to use almost any thickness of insulation, allows us to provide the thermotechnical requirements of SNiP 11-379 for any climatic region.

(56) 1. Stone and reinforced-stone building structures / M.Ya. Pildish, S.V. Poles. -M.: Stroyizdat, 1955.S. 220-221, 224-229.

2.Series 2.130-8. Details of multilayer brick and stone exterior walls of residential and public buildings: Materials for design and working drawings, typical designs, products and units of buildings and structures - M.: TsITP Gosstroy USSR, 1988. Issue. 0.1. Sheet 15, 18.

3.SNiP P-3-79. Construction heat engineering / Ministry of Construction of Russia. M.: GPTSPP, 1996.

4Ex. Number 1

Claims (1)

The outer wall of lightweight brickwork, including internal and external walls separated by a layer of effective insulation, characterized in that the bonds between the walls are made of reinforced concrete elements in the form of bars with dimensions that are multiples of bricks, discretely installed over the entire contact area of the layers, and rigidly embedded in the carrier layer masonry.