RU207019U1 - MULTI-LAYER GAS CONCRETE BLOCK - Google Patents

Abstract

The utility model refers to multilayer building blocks. A multilayer aerated concrete block contains interconnected layers of aerated concrete in one block according to the groove-ridge principle, and the grooves and ridges have a trapezoidal shape, the outer layers of the aerated concrete block in the cross-section are U-shaped and the inner abutting layers with the same shape and cross-sectional dimensions, providing a large contact area when gluing layers, each of the layers differs in density and thermal conductivity coefficient, and the number of layers in a block is determined by the required design strength and thermophysical characteristics in terms of wall loads and climatic characteristics of the construction area, the layers are arranged according to relation to each other in such a way that the density values and the thermal conductivity coefficient decrease in the direction from the inner layer - the most dense to the outer one - with the lowest density, while providing a normal heat and mass process transfer and the required design values of strength and resistance to heat transfer. The technical result is to increase the level of unification, simplify manufacturing and reduce the risk of uneven filling of the adjoining layers with glue during their gluing. 2 ill.

Description

The utility model relates to multi-layer building blocks.

There are recommendations for the design of various options for wall structures made of aerated concrete blocks, developed by the National Association of Autoclaved Concrete Manufacturers [1], which have ready-made options for wall units made of aerated concrete, both single-layer masonry, and with various cladding made of bricks, plaster, siding, and various modifications with using heaters of different structures.

Known block of autoclaved aerated concrete of different grades in strength [2], designed for laying load-bearing walls up to five floors or for walls in frame-monolithic houses without limiting the number of storeys, as well as for laying internal walls and partitions.

Known multilayer building blocks [3, 4], having various design solutions and intended for the construction of walls of civil and industrial facilities.

Known multifunctional aerated concrete block (analogue) [5], consisting of several layers of aerated concrete of different density on the principle of groove-comb, providing a large contact area when gluing layers. The number of layers in a block is determined by the required design strength and thermophysical characteristics. The layers are located in relation to each other in such a way that the values of density and thermal conductivity decrease in the direction from the inner layer (the most dense) to the outer layer (with the lowest density), while ensuring the normal process of heat and mass transfer and the required design values of strength and heat transfer resistance.

Known multilayer building blocks [1-5], intended for the construction of walls of civil and industrial facilities, have individual operational, design and heat-shielding capabilities.

The prototype is a utility model patent [6] "Multilayer aerated concrete block with improved heat-shielding qualities", including interconnected layers of aerated concrete in one block according to the groove-comb principle, and the grooves and ridges have a rectangular shape, the outer layers of the aerated concrete block are made in cross-section channel-shaped, and the internal abutting layers with sequential alternation of cruciform and I-shaped shapes in cross-section, providing a large contact area when gluing the layers, each of the layers differs in density and thermal conductivity, and the number of layers in the block is determined by the required design strength and thermophysical characteristics according to the loads on the wall and the climatic characteristics of the construction area, the layers are arranged in relation to each other in such a way that the density values and the thermal conductivity coefficient decrease in the direction from the inner layer (as dense as possible) to the outer ohm (with the lowest density), while ensuring the normal process of heat and mass transfer and the required design values of strength and resistance of heat transfer.

The disadvantage is the excessive variety of cross-sectional shapes of the internal abutting layers, which obviously increase the labor and financial costs for the production of a multi-layer aerated concrete block, and the high possibility of the risk of uneven filling with glue of the abutting grooves and rectangular ridges when gluing them.

The technical result is to increase the level of unification, simplify manufacturing and reduce the risk of uneven filling of the adjoining layers with glue during their gluing.

The technical result is achieved by the fact that a multi-layer aerated concrete block, including interconnected layers of aerated concrete in one block according to the groove-ridge principle, the outer layers of the aerated concrete block in the cross-section are U-shaped and the inner abutting layers, providing a large contact area when gluing the layers, each of layers differ in density and coefficient of thermal conductivity, and the number of layers in the block is determined by the required design strength and thermophysical characteristics according to the loads on the wall and the climatic characteristics of the construction area, the layers are arranged in relation to each other so that the values of density and coefficient of thermal conductivity decrease in the direction from the inner layer - the most dense to the outer one - with the lowest density, while ensuring the normal process of heat and mass transfer and the required design values of strength and resistance of heat transfer, according to the utility model, the inner joint The layers to be removed have the same shape and cross-sectional dimensions, and the grooves and ridges have a trapezoidal shape.

The essence of the utility model is illustrated by graphic materials, where figure 1 shows an element of the axonometric projection of the block, figure 2 is a side view in the process of gluing the block layers.

A multi-layer aerated concrete block contains H - outer layer, 1 and 2 - inner layers of the same shape and size in cross section, B - inner layer, ρ1 - outer layer density, ρ2 and ρ3 - inner layer densities, ρ4 - inner layer density, Q - heat flow, Р - load on the block.

The technical problem is solved by the fact that the internal abutting layers, differing in density and thermal conductivity coefficient and located in relation to each other so that the values of density and thermal conductivity coefficient decrease in the direction from the inner layer - the most dense to the outer one - with the lowest density, in order to increase unification levels have the same shape and cross-sectional dimensions, and grooves and ridges have a trapezoidal shape in order to reduce the risk of uneven filling of the adjoining layers with glue when gluing them together.

The use of the claimed utility model will allow, due to the unification of the internal abutting layers, to significantly reduce the cost of manufacturing a multi-layer aerated concrete block and reduce the risk of uneven filling of the abutting layers with glue during their gluing.

Sources of information

1. STO NAAG 3.1-2013 “Structures using autoclaved aerated concrete in the construction of buildings and structures. Design and construction rules ". St. Petersburg: National Association of Autoclaved Aerated Concrete Producers. 2013 .-- 176 p.

2. Volzhsky plant of building materials Bikton. Access mode: https://bikton.ru/catalog/gazobeton/

3. Patent for invention RU No. 2416008 C1 IPC E04C 1/40 (2006/01) from 2009

4. Patent for invention RU No. 2468159С1 IPC Е04С 1/40 (2006/01); В28В 5/00 (2006/01) from 2011

5. Patent for utility model RU No. 169317 U1 IPC E04C 1/40 (2006/01) from 2016

6. Patent for utility model RU No. 174546 U1 IPC E04C 1/40 (2006/01) from 2017

Claims (1)

A multi-layer aerated concrete block, including interconnected layers of aerated concrete in one block according to the groove-ridge principle, the outer layers of the aerated concrete block in the cross section are U-shaped and the inner abutting layers, providing a large contact area when gluing the layers, each of the layers differs in density and coefficient thermal conductivity, and the number of layers in the block is determined by the required design strength and thermophysical characteristics according to the loads on the wall and the climatic characteristics of the construction area, the layers are arranged in relation to each other in such a way that the values of density and thermal conductivity decrease in the direction from the inner layer - the most dense, to the outer one - with the lowest density, while ensuring the normal process of heat and mass transfer and the required design values of strength and resistance of heat transfer, characterized in that the inner abutting layers have the same shape and dimensions in cross-section, and the grooves and ridges are trapezoidal.

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