RU174546U1 - Multilayer aerated concrete block with improved heat-shielding qualities - Google Patents

Abstract

The utility model relates to multilayer building blocks. The technical result is the creation of a homogeneous wall block, which is made of layers of aerated concrete of different density and thermal conductivity with improved heat-shielding and deformation qualities. The technical result is achieved by the fact that a multifunctional aerated concrete block with improved heat-shielding qualities, including interconnected layers of aerated concrete, are interconnected into one block according to the groove-comb principle, which provides 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 calculated strength and thermophysical characteristics for wall loads and climatic characteristics To the sticks of the construction area, the layers are arranged in relation to each other so that the density values and the thermal conductivity coefficient decrease in the direction from the inner layer (maximally dense) to the outer (with the lowest density), while ensuring a normal heat and mass transfer process and the required calculated strength values and the heat transfer resistance, according to the utility model, the grooves and ridges are rectangular in shape, the outer layers of the aerated concrete block in cross-section are channel-shaped, and Cored oil abutting alternation with successive layers together and dvutavroobraznyh cruciform cross-sectional shapes.

Description

A utility model refers to multilayer building blocks.

There are well-known recommendations on the design of various options for the construction of walls made of aerated concrete, outlined in the Standard of Organization STO NAAG 3.1-2013 “Structures using autoclaved aerated concrete in the construction of buildings and structures. Design and Construction Rules ”developed by the National Association of Autoclaved Concrete Manufacturers of the Russian Federation.

The developed Standards of STO NAAG 3.1-2013 organization have ready-made versions of aerated concrete wall units. They are presented as single-layer masonry, and with different claddings of brick, plaster, siding, and various modifications using heaters of different structures.

The disadvantage of the proposed technical solutions is that not all wall structures as a result of heat engineering calculation are homogeneous. Since the territory of the Russian Federation is located in different climatic zones, and to a greater extent these are regions with adverse climatic conditions, then, performing calculations, it becomes necessary to use insulation in the wall structure. This violates the homogeneity of the design. The use of insulation leads to a decrease in the durability of the structure, the accumulation of moisture and a decrease in the heat-technical quality of the walls over time due to the different service life of the materials.

An analogue of the development is Bikton Blok manufactured by the Volzhsky Bikton Building Materials Plant, an enterprise located in the Republic of Mari El, Volzhsk. This building material is a block of autoclaved aerated concrete of various grades in strength D400-D700, dimensions L × B × H, where L is the length, B is the width, H is the height. Size L = 625 mm, B = 200 ... 500 mm, H = 200 ... 250 mm. Bikton Blok is designed for laying load-bearing walls up to five floors or for walls in frame-monolithic houses without floor restrictions, as well as for laying internal walls and partitions.

RF patent No. 2081265 "Concrete building block." The invention relates to the construction and building materials, namely, stones for laying walls and can be used in the manufacture of building envelopes of buildings and structures and the laying of communications in them. Building stone contains aggregate from the earth, industrial waste, etc., pressed without cement, and a concrete layer on the outside. The stone is made of two blocks of parallelepiped shape, interconnected by concrete jumpers. On the bed surfaces of the stone, blind holes for a bunch of stones are made, and circular grooves are made at its ends. In these grooves, insulating material is laid when laying the walls. The stone can lie down during masonry, both with the use of a binder solution, and without it. When using a binder solution, they fill the labyrinth of grooves after laying the stones in several layers.

RF patent No. 2502852 "Multilayer fuser, method and device for its manufacture" is also an analogue. The invention relates to construction and can be used in the manufacture of building envelopes in a wide range of seasonal temperature differences. Effect: increase the strength of the connection of the layers of the block, increase the thermal protective properties of the block and the heat and wind protection properties of the constructed structure, improve the quality of installation, reduce construction time. A multilayer thermoblock for construction contains a rigid spatial element - a matrix, and the block consists of three load-bearing concrete layers and two heat-insulating foam layers located between them, for example expanded polystyrene, having holes for connecting three concrete layers into a single monolithic structure by forming monolithic jumpers during pouring, and the insulating layers are shifted relative to the bearing layers vertically and horizontally to obtain a tongue-and-groove connection of the blocks, which isolates the carrier layers from each other with heat-insulating layers along the edges of the block in the area of contact with the adhesive mixture. Concrete lintels in one heat-insulating layer are shifted relative to the lintels in another heat-insulating layer by the maximum possible value and have a cross-sectional size necessary to ensure structural strength, and with a tongue-and-groove joint, the adhesive layer having the highest thermal conductivity is torn into 5 segments during installation, corresponding to the number of layers .

RF patent No. 2465415 “Wall block (options), material for the manufacture of wall blocks, mold for the manufacture of wall blocks (options), a method of manufacturing wall blocks and a production line for the manufacture of wall blocks”. The invention relates to building blocks, forms and materials for the manufacture of blocks, manufacturing methods and means for implementing the methods. Technical result: reducing the mass of blocks, increasing their strength, providing the possibility of increasing the strength of the joints of the blocks in the wall, simplifying production technology by using forms from standardized elements, using a simplified method of manufacturing blocks and lines for implementing the method. The wall block is made in the form of a faceted structure made of cured material, having a front surface located on the outer front side of the block, an inner surface located on the inner side of the block, lower, upper and side surfaces, while the block contains a front layer successively spaced along its width, an intermediate layer and an inner layer, the front layer having a thickness s1 that is less than the thickness s2 of the intermediate layer, and the thickness s3 of the inner layer is less than the thickness s1 of the front layer, the latter contains cement, plasticizer and crushed expanded clay with fractions ranging from 1 to 5 mm, the intermediate layer of the block contains cement, plasticizer and expanded clay with fractions ranging from 5 to 20 mm, the inner layer of the block contains sand, cement and plasticizer, the indicated thicknesses of the block layers are selected depending on the width S of the block and are in the ratio s1: s2: s3 = (0.10-0.17) S: (0.89-0.79) S: (0.007-0.037) S, the block contains a face layer and covering it from two adjacent lateral and lower sides of the L-shaped comb, as well as made in the front layer and covering from two other of adjacent lateral and upper sides of the block The L-shaped recess, ridge, and recess are located in the same plane parallel to the face of the block, the surface of the ridge and recess, the front and inner surfaces are solid and smooth, and the lower, upper, and side surfaces of the block located between the front and inner layers are made rough with recesses extending into the block from 0.1 to 20 mm between the fractions, while the length L of the block from its front side is selected depending on the width S of the block in the limit L = (0,99-1,01) S, length L _HV block with its inner side is selected equal to the length of the block with its front side, the front surface of the block is spaced from the crest s4 axis, the inner surface of the ridge located block axis at a distance s5 greater than the distance s4, while s4 and s5 are in the ratio s4 = (0.08-0.16) s5. Embodiments of blocks, material for manufacturing the block, mold options for manufacturing the block, method for manufacturing the block, and a line for manufacturing the block are also described.

RF patent No. 2317381 "Multilayer building block." The invention relates to the production of building materials used, in particular, in low-rise construction, as well as in the construction of civil and industrial facilities with high requirements for decorative exterior cladding of buildings, heat and sound insulation of premises, for example, houses, cottages and other buildings. A multilayer building block is characterized by the presence of a decorative layer of thickness A, a supporting layer of thickness C and a heat-insulating layer of expanded polystyrene B between them, fastened together by polymer rods made with a sharp end on the side in contact with the decorative layer, and with a hook on the other end, included in the carrier layer. Polymer rods contain disk or cruciform ribs. The block is made in the form of a prism, the trapezoidal bases of which are the ends of the block. The smaller in area of parallel side faces of the prism is the outer side of the decorative layer of the block. A large area of parallel lateral faces of the prism is the outer side of the carrier layer of the block. Two identical non-parallel faces of the prism are the upper and lower bases of the block with an angle α of their inclination to the outer side of the carrier layer of the block no more than 1 ° and the ratio of the layer thickness A: B: C = 1: 2.4: 2.6. The performance of the multilayer block is characterized. Effect: simplifying the construction of the building block, increasing the strength characteristics of the masonry and cheaper construction.

RF patent No. 2416008 "Multilayer building block and method of its manufacture." The invention relates to the production of building materials used for the construction of walls of civil and industrial facilities. The multilayer building block contains a decorative layer, a central layer located between the outer and inner structural layers made of expanded clay mixture. The mixture for producing the central layer contains per 1 m ³ mixture: expanded clay gravel fraction 8 ÷ 22 mm with a bulk density of 350 ÷ 450 kg / m ³ in a volume of 1 m ³ Portland cement 130 ÷ 440 kg, polyvinyl acetate glue in a volume of 1.3 ÷ 4 , 7 l, water in a volume of 115 ÷ 125 l. A method for manufacturing a multilayer building block is described. Effect: increase the strength of the block and simplify the method of its manufacture.

RF patent No. 2468159 "Multilayer building block and method of its production." The invention relates to multilayer building blocks used in low-rise construction, as well as to a method for the production of such blocks. The multilayer building block consists of a decorative front layer, a bearing layer and a heat-insulating layer located between them, fastened together by polymer rods. The block is made in the form of a prism, the trapezoidal bases of which are the ends of the block, the equally non-parallel edges of the prism are the upper and lower bases of the block. A large area of parallel side faces of the prism is the outer side of the decorative layer of the block, a smaller area of parallel side faces of the prism is the inner side of the base layer of the block, and the angle between the planes of the base of the prism and the outer side of the front decorative layer is 89 ° or less, on one of bases and in the decorative carrier layers formed grooves whose axes are in planes parallel to the front side of the decorative layer, with the cross-sectional area of each groove than 5 cm ^2, at each respective bases of the grooves formed protrusions.

The disadvantage of building blocks is that the dimensions of one block do not correspond to the wall thickness obtained as a result of the heat engineering calculation. Therefore, masonry in one block or in two blocks is applied to the design scheme, or masonry with various types of insulation is applied. As a result of this, the homogeneity of the wall structure is violated, and the risk of uneven filling with masonry mortar, poor-quality construction of the building is increased and labor productivity is reduced. In all cases considered, the uniformity of the wall is violated. The designed fence should provide heat and mass transfer processes, and this is possible if the density of the material decreases from the inner to the outer surface of the wall. In this design, this is violated. Between the two layers of the outer and inner insulation is located, the density of which is much lower than that of concrete, thereby moisture can not be completely removed from the wall. If the heat and mass transfer process is not followed, then in such structures there is an accumulation of vaporous moisture, which leads to a decrease in heat-shielding qualities and destruction of materials.

Ensuring non-accumulation of vaporous moisture in the fence is a prerequisite for the design of thermal protection. This condition can be provided if you operate with the vapor permeability of the layer G _i

μ _i is the vapor permeability coefficient of the layer,

δ _i - layer thickness.

The vapor permeability of the layer G _i is not the amount of moisture that passes through a separate fence layer, but the “throughput” of this layer. Thus, if the individual layers in a multilayer fence are arranged in increasing order of "throughput" from the inner surface of the fence to the outer, then the vaporous moisture that penetrates the fence through the inner layer G _B will increase through the separate layers with increasing ease due to their increase "bandwidth"

G _B <G ₁ <G ₂ <... <G _H

Under the condition of inequality, the law of heat and mass transfer is satisfied, that is, the wall structure meets all the requirements for the natural removal of moisture, which in turn makes it durable and efficient. But in multilayer constructions this is not always respected.

The prototype is a patent for a utility model of the Russian Federation No. 169317 "Multifunctional aerated concrete block." The invention relates to the production of building materials used in civil and industrial engineering. A multilayer aerated concrete block consists of several layers of aerated concrete of various densities according to the groove-comb principle, which provides a large contact area when gluing the layers. The number of layers in the block is determined by the required calculated strength and thermophysical characteristics. 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 (maximally dense) to the outer (with the lowest density), while ensuring a normal heat and mass transfer process and the required calculated values of strength and heat transfer resistance.

The disadvantage is the appearance of possible vertical shifts of the glued layers and the occurrence of various deformations.

The technical result is the creation of a homogeneous wall block, which is made of layers of aerated concrete of different density and thermal conductivity with improved heat-shielding and deformation qualities.

The technical result is achieved by the fact that a multifunctional aerated concrete block with improved heat-shielding qualities, including interconnected layers of aerated concrete, are interconnected into one block according to the groove-comb principle, which provides 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 calculated strength and thermophysical characteristics for wall loads and climatic characteristics To the sticks of the construction area, the layers are arranged in relation to each other so that the density values and the coefficient of thermal conductivity decrease in the direction from the inner layer (maximally dense) to the outer (with the lowest density), while ensuring a normal heat and mass transfer process and the required calculated strength values and heat transfer resistance, according to the utility model, the grooves and ridges are rectangular in shape, the outer layers of the aerated concrete block in cross section are channel-shaped, and inner mating layers with sequential alternation of cross-shaped and double-tee shapes in cross section.

The utility model is illustrated in the drawing.

The drawing shows a perspective view of a precast multilayer aerated concrete block with improved heat-shielding qualities.

A is the outer layer, 1 is the inner layer of the cross-shaped in cross section, 2 is the inner layer of the I-shaped in cross section, B is the inner layer, ρ ₁ is the density of the outer layer, ρ ₂ is the density of the inner layer of the cross, ρ ₃ is the density the inner layer is I-shaped, ρ ₄ is the density of the inner layer, Q is the heat flux, P is the load on the block.

This technical problem is solved by the fact that the block is developed for a specific region, and the thickness and number of layers are determined by the results of the heat engineering calculation. Layers of aerated concrete are interconnected into one block according to the groove-crest principle, and the geometry of the notch and the crest transfers the load to the block, preventing the occurrence of shear deformation along the surfaces to be glued, providing a large contact area when gluing the layers. Each of the layers differs in density (ρ) and thermal conductivity coefficient (λ), and the number of layers in the block is determined by the required calculated strength and thermophysical characteristics for wall loads and climatic characteristics of the construction area. The layers are arranged in relation to each other in such a way that the density values (ρ) and the thermal conductivity coefficient (λ) decrease in the direction from the inner layer (maximally dense) to the outer (with the lowest density), while ensuring a normal heat and mass transfer process and the required calculated values strength and heat transfer resistance (R).

Claims (1)

Multifunctional aerated concrete block with improved heat-shielding qualities, including interconnected layers of aerated concrete in one block according to the groove-comb principle, 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 calculated strength and thermophysical characteristics for wall loads and climatic characteristics of the construction area, the layers are located in relation to each other to a friend so that the density values and the coefficient of thermal conductivity decrease in the direction from the inner layer (maximally dense) to the outer (with the lowest density), while ensuring a normal heat and mass transfer process and the required calculated values of strength and heat transfer resistance, characterized in that the grooves and the ridges have a rectangular shape, the outer layers of the aerated concrete block in the cross section are channel-shaped, and the inner abutting layers with sequential alternation between themselves and dvutavroobraznyh cruciform cross-sectional shapes.

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