RU2225487C2 - Method of building block production and wall (variants) including building blocks - Google Patents

Abstract

FIELD: building engineering, particularly building block production. SUBSTANCE: production method for building block on cement base having at least layer of fine concrete and heat-insulation layer of light-weight concrete arranged in one row involves installing technological partitions separating form on horizontal cells number of which corresponds to concrete layers number at an angle to vertical plane; filling frame with concrete of one type; de-installing partitions at the same angle as partition installation angle; vibroforming all concrete layers. Partition installation angle depends on concrete layers thickness such that partition is inclined at an angle of up to 20 deg. towards layer with less density relative point of vertical plane intersection with cell bottom. Ready blocks are used for wall building. Wall has inner structural layer, heat-insulation layer and face decorative layer. Structural layer is formed of any building materials, namely bricks, stones, panels. Face and heat- insulation layers are made as separate multi-layer unit having inner base layer which fixes unit in inner part of wall masonry. Space between horizontal rows of multi-layer units is filled with two-layer stretcher blocks with face and heat-insulation layers and with light-weight heat-insulation material formed as panels, for instance as polystyrene concrete. Outer wall corners ma y be formed of the same building material as inner structural layer and connected with inner structural layer by masonry. EFFECT: improved heat-insulating properties in wall straight and corner areas, near window and door openings, increased strength, possibility of multi-story and various-story building construction. 9 cl, 4 dwg

Description

The invention relates to the construction, in particular, to a method for manufacturing wall building blocks and to structures of external walls with blocks made by this method, having improved thermal characteristics, mainly for civil buildings.

A known method of manufacturing a multilayer wall structure described in the description of the patent of the Russian Federation No. 2153563. According to one method variant, a layer of structural concrete is laid and compacted, then an intermediate layer is prepared and laid from a mixture of structural and heat-insulating concrete. After that, a heat-insulating layer of concrete is laid, the next intermediate layer of concrete from a mixture of structural and heat-insulating concrete, and the last is laid concrete layer of concrete. All layers are laid horizontally on top of one another.

The disadvantage of this method is the length of the manufacturing cycle due to the sequence of laying layers, as well as the difficulty of counting and compliance with the average density and the required thickness of the intermediate layers in the production environment.

According to the second variant of the prototype method, the manufacture of multilayer structures consisting of two structural layers and a layer of heat-insulating concrete enclosed between them is carried out in the following order.

Lay a layer of structural concrete and, without sealing, create a developed multidisciplinary surface of this layer, for example, in the form of corrugations. A layer of heat-insulating concrete (polystyrene concrete) is laid on the surface thus prepared. Without compacting the second layer, a multidisciplinary surface is made on it, then the second structural layer of concrete is laid and vibro-compaction is performed, for example, on a vibrating platform.

The disadvantage of this method also consists in the sequential laying of horizontal concrete layers, which makes it very difficult to maintain the geometry of the multidisciplinary surface of the previous layer before and during pouring of the subsequent layers and, as a result, to obtain the required specified strength parameters of the structure. Such a technology for manufacturing a multilayer wall structure is very problematic and closer to theoretical developments than to practical applications.

The invention also provides for wall construction options with wall building blocks made by this method.

The wall with facing brick facing and dressing of the facing with masonry is known (Stone structures and their construction. Builder's guide. M. Stroyizdat, 1989, p. 101, Fig. 11.22).

The disadvantage of the wall is that it does not meet modern requirements for thermal insulation and to comply with them, it is necessary to increase the thickness of the wall.

There is another way of executing a multilayer wall, which consists in attaching insulation and finishing layers to the bearing layer of the wall, where the finishing layer is made in the form of overlapping plates, and the insulation layer is combined with the facing and made in the form of tiles in industrial production. Tiles are mounted on anchors that are embedded in the supporting layer of the wall during its installation or on the finished wall. The space between the tiles is poured with non-combustible heat-insulating material (Application for invention No. 98113897. Publ. 2000.06.10).

The disadvantage of the wall is that during its construction it is necessary to install additional elements in the form of anchors and fix the tiles on them, which is quite laborious and difficult when erecting walls of ordinary and high storeys. In addition, it is necessary to carry out additional filling of the space between the tiles.

The closest in technical essence to the claimed object is a wall (RF Patent No. 2109888). The wall includes an inner layer of insulation and a facing facade layer. The inner layer of the wall is formed by alternating rows of two-layer blocks of structural and heat-insulating lightweight concrete laid by poking, and single-layer blocks of structural concrete laid by spoon. The facing facade layer is formed by alternating rows of two-layer blocks laid with a poke and a spoon. The insulation layer is formed by rows of single-layer blocks of heat-insulating lightweight concrete and / or two-layer blocks of the inner and facing layers of the wall. The latter are made of structural lightweight concrete with an average density of 350 - 500 kg / m ³ . For the inner layer of the wall, a two-layer block laid by a poke is made with a thickness of a layer of structural concrete along the length of the block equal to its width. For the facing facade layer, two-layer blocks laid with a poke and a spoon are made with a layer thickness of structural concrete equal to 0.1-0.3 of its length.

The disadvantage of the wall is that its design is intended for laying straight sections, and when laying window, door and other openings, as well as the outer corners of the outer walls, the insulating layer goes to the outer surface of the wall and requires additional decoration. In addition, with a number of storeys above 5, it is necessary to increase the wall thickness or increase the strength of its masonry. At the same time, horizontal joints in this design do not overlap and form “cold bridges”, and for the regions of the north, the wall thickness must be at least 79 cm.

The aim of the invention is to provide a method of manufacturing a wall building block and wall structure with blocks made in this way, which can improve the heat-insulating properties of the wall, both on its straight and corner sections, window and door openings, while ensuring the strength required for building buildings with and uneven floors.

This goal is achieved due to the fact that in the method of manufacturing a wall building block made on the basis of cement mortars, containing at least a layer of fine concrete and a heat-insulating layer of light concrete, including the installation and removal of technological partitions, filling the form with layer solutions and their vibration molding, according to the invention, the installation of technological partitions dividing the form into a series of horizontally arranged cells corresponding to the number of layers of the wall block are made before filling the form with solutions at an angle to the vertical, depending on the density of the layers with an inclination towards a less dense layer at an angle α of up to 20 °, counting from the point of intersection of the vertical with the bottom of the form, fill each cell with a solution of one layer, remove the technological partitions under those the same angles at which they were installed in the mold, and simultaneously vibroform all layers.

Filling with solutions of cells formed by partitions can be performed simultaneously or sequentially in each cell.

Technological exposure to the removal of partitions from the mold can be within the time range from the moment of completion of laying the solutions of the layers into the mold until the moment of their setting.

At the same time, the invention provides for a wall structure including an internal structural layer, heat-insulating and facade cladding layers, and according to the invention, the structural layer is formed from any wall building elements, such as bricks, stones or panels, and the cladding and heat-insulating layers are made in the form of a separate multilayer block containing an internal structural layer, with which the multilayer block is pinched in the rows of masonry of the internal structural layer of the wall, while your between the horizontal rows of multilayer blocks is filled with two-layer spoon blocks with facing and heat-insulating layers, as well as light heat-insulating material in the form of plates, for example, of polystyrene concrete.

The wall design allows laying external and internal corners, as well as window, door and other openings and eliminates the formation of “cold bridges”.

A variant of the wall is possible, including an internal structural layer, heat-insulating and facade cladding layers, in which the structural layer is formed of any wall building elements, such as bricks, stones or panels, and the cladding and heat-insulating layers are made in the form of a separate multilayer block containing an internal structural layer, by which the multilayer block is pinched in the rows of masonry of the internal structural layer of the wall, while the space between the horizontal rows of multilayer blocks behind it is filled with two-layer spoon blocks with facing and heat-insulating layers, as well as light heat-insulating material in the form of plates, for example, of polystyrene concrete, while the external corners of the wall are made of the same wall building elements, such as bricks, stones or panels, as the internal structural layer of the wall and combined with masonry.

The invention is illustrated by drawings, which depict:

Figure 1. The scheme of installation of technological partitions and pouring layers into the mold.

Figure 2. Scheme of the molded finished block in the form.

Figure 3. Wall construction.

Figure 4. The wall structure with external corners made of standard structural elements (bricks), as the wall itself.

A feature of the method of manufacturing wall building blocks is that all layers of the block are arranged in one horizontal row. According to this method, before filling form 1 with solutions of layers 2, 3, 4 (Fig. 1), technological removable partitions 5 are installed and fixed into it, dividing the form into cells in accordance with the number of layers to be laid and thus creating one horizontal row of the formed wall building block . The partitions, depending on the density and consistency of the solutions of the block layers, can be installed in a vertical position or at an angle to the vertical, counting from the point of intersection of the vertical with the bottom of the form, while the inclination of the partitions is directed towards a less dense layer.

After installing and fixing the technological partitions, the layer solutions are laid in the corresponding cells, each cell being filled with a solution of one layer. Depending on the serial production, the solutions can be laid sequentially in each cell or simultaneously in all, for example, from a special dispenser by opening all the dispensing funnels with one flap.

If necessary, the solutions of the layers poured into the form are subjected to aging, which can be within the time range from the moment of completion of filling the layer with solutions to the moment of their setting. Then the technological partitions are removed at the same angles at which they were originally installed, and all layers of the block are vibroformed at the same time. In the process of vibroforming, heavy solutions and their fractions more actively spread closer to the bottom of the mold, with this, adhesion of the layers and simultaneous approach to the vertical of the faces of their contact (FIG. 2).

It was established experimentally and depending on the composition of the solutions of the layers, their consistency, time of technological exposure, time of vibroforming and other factors that the maximum deviation of the angle of inclination of the technological partition should not exceed the angle α by more than 20 °.

The invention also provides for wall construction using wall building blocks obtained by this method.

The wall (figure 3) contains an internal structural layer 6 made of any wall building elements, such as bricks, stones or panels. The facing and heat-insulating layers are made in the form of a separate multilayer block 7, containing the inner structural layer 8, by which the multilayer block 7 is pinched in the rows of masonry of the inner structural layer 6 of the wall. The space between the rows of multilayer blocks is filled with two-layer spoon blocks 9 with facing and heat-insulating layers, as well as light heat-insulating material in the form of plates 10, for example, of polystyrene concrete.

The construction of wall building blocks and walls allows laying external and internal corners, as well as window, door and other openings, providing the necessary thermal insulation and eliminating the formation of “cold bridges”.

A variant of the above-described wall is possible (Fig. 4), in which its external corners 11 can be made of the same wall building elements as the internal structural layer 6 of the wall, while they are interconnected by masonry.

The proposed method of manufacturing blocks and wall construction have been tested experimentally in production and construction. The use of such a wall design will make it possible to obtain the necessary heat-insulating indicators that meet modern requirements of the Building Norms and Rules (SNiP) and changes No. 3 and No. 4 to SNiP II-3-79 * “Building Heat Engineering” without increasing the thickness of the load-bearing structural layers of the wall.

Claims (8)

1. A method of manufacturing a wall building block made on the basis of cement mortars, containing at least a layer of fine-grained concrete and a heat-insulating layer of light concrete, located in one horizontal row, including the installation and removal of technological partitions, filling the form with layer solutions and their vibroforming, characterized in that the technological partitions dividing the form into a series of horizontally arranged cells corresponding to the number of layers of the wall block are installed units by filling the form with solutions at an angle to the vertical, depending on the density of the layers, with an inclination towards the less dense layer by an angle of up to 20 °, counting from the point of intersection of the vertical with the bottom of the form, fill each cell with a solution of one layer, remove the technological partitions at the same angles under which they were installed in the mold and simultaneously vibroform all layers. 2. The method according to claim 1, characterized in that the filling of the solutions of the layers is carried out simultaneously in all cells. 3. The method according to claim 1, characterized in that the filling of the solutions of the layers is carried out sequentially in each cell. 4. The method according to claim 1, characterized in that before vibroforming produce technological exposure. 5. The method according to claim 4, characterized in that the technological exposure is within the time from the moment of completion of filling the solutions of the layers into the mold until the moment of their setting. 6. A wall including an internal structural layer, heat-insulating and facade cladding layers, characterized in that the structural layer is formed from any wall building elements, such as bricks, stones or panels, and the facing and heat-insulating layers are made in the form of a separate multilayer block containing an internal structural the layer by which the multilayer block is pinched in the rows of masonry of the internal structural layer of the wall, while the space between the horizontal rows of multilayer blocks is filled EHO two-layered stretcher blocks with the facing and insulating layers, as well as light insulating material in the form of plates, for example of polystyrene. 7. The wall according to claim 6, characterized in that it is made with the possibility of laying external and internal corners, as well as window, door and other openings. 8. A wall including an internal structural layer, heat-insulating and facade cladding layers, characterized in that the structural layer is formed from any wall building elements, such as bricks, stones or panels, and the cladding and heat-insulating layers are made in the form of a separate multilayer block containing an internal structural the layer by which the multilayer block is pinched in the rows of masonry of the internal structural layer of the wall, while the space between the horizontal rows of multilayer blocks is filled EHO two-layered stretcher blocks with the facing and insulating layers, as well as light insulating material plates as, for example, polystyrene, with the outer corners of the walls are made of the same wall building elements, and that the internal structural layer wall and merged with the masonry.

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