RU2317381C1 - Multilayered construction unit - Google Patents

Abstract

FIELD: building material production, particularly adapted for low building erection and for civil and industrial structure construction.

SUBSTANCE: multilayered construction unit comprises decorative layer of A thickness, bearing layer of C thickness and heat-insulation layer arranged in-between. Heat-insulation layer is made of expanded polystyrene having B thickness. Said layers are connected with each other by means of polymeric rods having sharpened and engaging ends. The sharpened ends are located from the side touching decorative ends. The engaging rod ends are inserted in bearing layer. Polymeric rods include disc-shaped or crossed ribs. Building block is made as prism having trapezoid bases made as block ends. One of parallel prism sides has lesser area and is formed as outer decorative block layer side. Another parallel prism side having greater area is outer side of bearing block layer. Two non-parallel prism sides have equal areas and are created as upper and lower block bases. Said sides are inclined at angle of not more than 1° to outer side of bearing layer. Layer thicknesses are related as A:B:C=1:2.4:2.6. Laminated construction block production method is also disclosed.

EFFECT: improved building appearance, heat insulation and soundproofing, simplified structure, increased masonry strength and decreased construction costs.

2 cl, 9 dwg

Description

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 residential buildings, cottages and other buildings.

Known decorative facing building stone, consisting of a decorative finishing layer and a building layer (see patent RU No. 21131006, class Е04С 1/40, 1998). In this technical solution, the decorative finishing layer is made of a mixture of a hydraulic binder, filler and pigment, and a silicate or ceramic brick is used as the building layer, while the specified ratio of the thickness of the finishing and building layers is maintained. However, such a building element does not provide good thermal insulation, and its finishing layer does not allow to obtain a varied texture of the finish and does not provide the architectural diversity of the structural design of the walls.

A known building wall block containing two building layers separated by a core of heat-insulating material, while the heat-insulating core is made of polystyrene foam or other material similar in strength and thermophysical properties (see patent RU No. 2131501, class Е04С 1/40, 1998 ) Such a building block requires additional finishing of the outer front surface of the walls erected from it. In addition, the connection between the layers does not provide sufficient strength of the entire block, despite the variety of forms of configuration of the insulating core.

The closest technical solution to the claimed invention is a building block, consisting of an external decorative layer adjacent to it a concrete layer, which adjoins a heat-insulating layer, and an internal concrete supporting layer connected by fiberglass rods (see patent RU No. 2208102, class Е04С 1 / 40, 2001). This building block turned out to be unreasonably complicated and expensive to manufacture and assemble and not decorative enough in masonry.

The present invention is aimed at solving the technical problem of simplifying the construction of a building block and the technology of its manufacture and subsequent assembly during wall construction in compliance with all required technical and technological parameters, optimizing the aspect ratio of all layers, increasing the decorative appearance of masonry, increasing the strength characteristics of masonry and reducing the cost of construction.

The solution of the technical problem is achieved by the fact that the multilayer building block is characterized by the presence of a decorative layer of thickness A, a bearing 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, as well as supplying at least part of the polymer rods with either disk or cruciform ribs mi and the implementation of the block in the form of a prism, the trapezoidal bases of which are the ends of the block, and the smaller of the parallel side faces of the prism is the outer side of the decorative layer of the block, while the larger of the parallel side faces of the prism is the outer side of the carrier layer of the block, and two the same non-parallel edges 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 of not more than 1 ° and the ratio of the thickness of the layers A: B: C = 1: 2.4: 2.6. And the fact that the multilayer building block is characterized by the presence of a decorative layer of thickness A and a bearing layer of thickness C, as well as the implementation of the block in the form of a prism, the trapezoidal bases of which are the ends of the block, and the smaller of the parallel side faces of the prism is the outer side of the decorative layer of the block, while a large area of parallel side faces of the prism is the outer side of the carrier layer of the block, and two equally parallel non-parallel faces of the prism are the upper and lower bases niyami block with an angle of inclination α to the outer side of the carrier block layer is not more than 1 ° and the ratio of thicknesses of the layers A: C = 1: 5.

The invention is illustrated by drawings. Figure 1 shows a three-layer building block, a plan view. Figure 2 is the same, section aa in figure 1. Figure 3 - the laying of three-layer building blocks, a vertical section. Figure 4 is a two-layer building block, a plan view. Figure 5 is the same, section bB in figure 4. Figure 6 - polymer rod for fastening the block with disk ribs. In Fig.7 is the same, section bb in Fig.6. On Fig - polymer rod with cruciform ribs. In Fig.9 is the same, section GG in Fig.8.

The multilayer building block 1 includes a decorative layer 2 of thickness A, an adjacent heat-insulating layer 3 of polystyrene foam of thickness B and a supporting layer 4 of thickness C, fastened together by polymer rods 5, equipped with either disk ribs 6 or cruciform ribs 7. Ribs 6 and 7 can be located either along the entire length of the rod 5, or along part of its length. The rods 5 are made with a sharp end 8 on the side in contact with the decorative layer 2, and with a hook 9 at the other end included in the carrier layer 4. The rods 5 together with the ribs 6 and 7 and the hooks 9 are made entirely of polymeric materials. The rods 5 are located in block 1 at different angles to each other. The building block 1 is made in the form of a prism, the trapezoidal bases of which are the ends 10 of block 1. The smaller in area of two parallel side faces of the prism is the outer side 11 of the decorative layer 2 of block 1. The larger in area of two parallel side faces of the prism is the outer side 12 of the carrier layer 4 of block 1. Two identical non-parallel prism faces of the prism are the upper 13 and lower 14 bases of block 1 with an angle α of their inclination to the outer side 12 of the carrier layer 4 of block 1 not more than 1 °. The ratio of the thickness of the layers 2, 3 and 4 lies in the range A: B: C = 1: 2.4: 2.6. This design and the ratio of the parameters provide good thermal insulation and masonry strength with the simplicity of the design of blocks 1.

The decorative layer 2 is made of mixtures having the following qualities: strength, hardness, aesthetics, water repellent and other properties. This can be achieved using a mixture of cement, expanded clay, sand and water with the addition of plasticizer and any coloring pigment to make decorative layer 2. Decorative layer 2 can be made of various textures: smooth or with any convex pattern.

The heat-insulating layer 3 is made using materials that have low thermal conductivity, for example, polystyrene foam having qualities universal for the construction of this block 1 and providing the necessary thermal insulation properties and good damping during compression-tension of the blocks 1 and the adhesive composition 15 of the masonry walls during temperature extremes, especially when changing seasons (from plus temperature to minus and vice versa).

In the manufacture of block 1, the mixture is poured into the mold to obtain a decorative layer 2, then the polystyrene foam of the heat-insulating layer 3 is laid and pierced by rods 5 at different angles until it touches layer 2, and the ends of the rods 5 are filled with concrete mixture of the carrier layer 4.

When constructing walls from blocks 1, they are fixed with a solution of a binder composition 15 with a decorative layer 2 to the outside. Figure 3 shows a vertical section of the masonry of the three-layer blocks 1. The bonding composition 15 in the section has a taper facing outward. The outer seam 16 of the masonry has a decorative concave surface. In the region of the carrier layer 4, the thickness of the binder composition 15 is minimal, which ensures high strength and reliable fit of the blocks 1 by the carrier layers 4 to each other.

The three-layer building block 1 is intended for use in central Russia and regions with similar climatic conditions, as with sufficient simplicity of design and external decorativeness provides good thermal insulation qualities and stability of the carrier layer 4.

The two-layer building block 17 contains a decorative layer 2 with a thickness A and a carrier layer 4 with a thickness C. The building block 17 is made in the form of a prism, the trapezoidal bases of which are the ends 10 of the block 17. The smaller in area of two parallel side faces of the prism is the outer side 11 of the decorative layer 2 of the block 17. A large area of two parallel side faces of the prism is the outer side 12 of the carrier layer 4 of the block 17. Two equally sized non-parallel faces of the prism are the upper 13 and lower 14 bases of the block 17 with an angle α of their inclination to the outer side 12 of the carrier layer 4 of the block 17 no more than 1 °, and the ratio of the thickness A and C of layers 2 and 4: A: C = 1: 5. The two-layer building block 17 is intended for the southern seismically dangerous regions of Russia and other regions with similar environmental conditions, when there is no need for increased thermal insulation properties of the block 17, but high demands are placed on the strength of the bearing layer 4 and the masonry obtained during the construction process.

The decorative layer 2 of the two-layer block 17 (as with the three-layer block 1) is made of mixtures having the following qualities: strength, hardness, aesthetics, water repellent and other properties. This can be achieved using a mixture of cement, expanded clay, sand and water with the addition of plasticizer and any coloring pigment to make decorative layer 2. Decorative layer 2 can be made of various textures: smooth or with any convex pattern.

A multilayer building block is used as follows.

When used in the construction of blocks 1 and 17 of a prismatic shape with a small angle of inclination of the walls, an optimal balance of the binder composition 15 is achieved: in the region of the decorative layer 2 in the masonry, the thickness of the composition 15 is maximum, which together with the concave outer seam 16 creates a good decorative effect. The use of expanded polystyrene for the manufacture of thermal insulation layer 3 provides the necessary thermal insulation properties and good damping during compression-tension of the blocks 1 and the binder composition 15 of the masonry walls during temperature changes, especially when changing seasons. The minimum thickness of the binder composition 15 in the zone of abutment of the carrier layers 4 provides high strength and reliability of the abutment of blocks 1 and 17 of the carrier layers 4 to each other.

The use of a three-layer building block 1 in the middle zone of Russia and regions with similar climatic conditions ensures good thermal insulation qualities, stability of the carrier layer 4 and the entire masonry as a whole with sufficient simplicity of design and external decorativeness. In turn, the use of two-layer building blocks 17 in the southern seismically dangerous regions of Russia and other regions with similar environmental conditions, when there is no need for increased thermal insulation properties of block 17, but high demands are placed on the strength of the bearing layer 4 and the masonry obtained during the construction process, significantly simplify the manufacture of blocks 17, reduce the cost of construction while increasing the decorativeness of buildings and their strength characteristics. The implementation of blocks 1 and 17 with the upper 13 and lower 14 bases having an angle α of their inclination to the outer side 12 of the carrier layer 4 of not more than 1 °, provides a minimum taper of the binder composition 15, which makes it possible to achieve a decorative appearance with simultaneous masonry strength in the zone docking of blocks 1 and 17 with carrier layers 4. Achieving the same goal is facilitated by the use of blocks 17 with a ratio of the thickness of layers 2 and 4 as follows: A: C = 1: 5.

The use of polymer rods 5 for screeding all layers 2, 3 and 4 of blocks 1 eliminates the formation of oxides and rust between them during operation of the building in wet conditions. The implementation of the polymer rods 5 with ribs 6 and 7 and the hooks 9 provides a strong holding and pulling together the decorative layer 2, the insulating layer 3 and the carrier layer 4 in the three-layer block 1, excluding the scrolling of the rods 5 around its axis. The location of the rods 5 at different angles to the surface of layers 2, 3 and 4 helps to increase the strength and fracture toughness of the structure.

Thus, the claimed invention solves the technical problem of simplifying the construction of the building block and the technology of its manufacture and subsequent assembly during the construction of the wall in compliance with all required technical and technological parameters, optimizing the aspect ratio of all layers, increasing the decorative appearance of the masonry, increasing the strength characteristics of the masonry and reducing the cost of construction .

Claims (2)

1. A multilayer building block, characterized by the presence of a decorative layer of thickness A, a bearing layer of thickness C and a heat-insulating layer of foam polystyrene B between them located 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, as well as supplying at least part of the polymer rods with either disk or cruciform ribs, and making the block in the form of a prism, trapezoidal bases which are the ends of the block, and the smaller of the parallel lateral faces of the prism is the outer side of the decorative layer of the block, while the larger of the parallel lateral faces of the prism is the outer side of the carrier layer of the block, with two equally parallel non-parallel faces of the prism being the upper and the lower base of the block with an angle α of their inclination to the outer side of the carrier layer of the block is not more than 1 °, and the ratio of the thickness of the layers A: B: C = 1: 2.4: 2.6. 2. A multilayer building block, characterized by the presence of a decorative layer of thickness A and a bearing layer of thickness C, as well as the execution of the block in the form of a prism, the trapezoidal bases of which are the ends of the block, and the smaller in area of parallel side faces of the prism is the outer side of the decorative layer of the block, this large area of parallel lateral faces of the prism is the outer side of the carrier layer of the block, and two equally parallel non-parallel faces of the prism are the upper and lower base block with an angle α of their inclination to the outer side of the carrier layer of the block is not more than 1 °, and the ratio of the layer thickness A: C = 1: 5.

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