RU153949U1 - WALL UNIT OF COMPOSITE MATERIALS - Google Patents

Abstract

The utility model relates to the field of construction and can be used in the construction of the aerial part of low-rise buildings for various purposes and the formation of enclosing structures of monolithic-frame structures. The purpose of the invention is to create a set of universal elements, making it possible to erect from it load-bearing and enclosing structures of the aerial parts of buildings of various types and purposes. The essence of the utility model lies in the fact that the universal set of elements for the erection of supporting and enclosing structures of the aerial parts of buildings, including wall blocks, lintels and floor slabs, also contains decorative elements of buildings, representing a single system, and all the components of the set are made of silicalcite, foam glass or composite materials, have special cavities for placement of an effective insulation in them and, due to their shape, ensure the assembly of buildings without using any wet processes.

Description

The utility model relates to the field of construction and can be used in the construction of load-bearing walls and partitions of low-rise buildings for various purposes and the formation of enclosing structures of monolithic-frame structures.

A known set of foam concrete slab products for insulation of facades of civil buildings (RF Patent Е04В 1/26 42252 11/27/2003), consisting of ordinary and angular slab elements made of foam concrete, dispersively reinforced with pieces of synthetic fibers. However, this set includes only wall cladding elements and cannot perform the functions of load-bearing structures.

The Cube 2.5 system is also known (RF Patent "Frame Building" Е04В 5/43 2112117 27/05/1998). The frame building contains ordinary and external columns and ceilings, made in the form of rectangular supercolumn, intercolumn and central plates articulated with each other with the same pitch, equipped with supporting tables and shelves around the perimeter. At least part of the floor slabs or all of the slabs are made monolithic and supported on prefabricated or monolithic columns. The building has an external load-bearing wall, while the distance between the external columns and the external wall is increased by 10-100%, and the extreme slabs are supported on the external wall or on the external columns, and in this section additional reinforcement is installed on the floor slabs and monolithic concrete is laid. The frame building can be multi-storey, and the overlap of each floor is made, regardless of the overlap of other floors, either monolithic or prefabricated from slabs. However, the set offers only universal elements of the frame, and not the elevated box of the building as a whole, and there are also jobs with wet processes.

Closest to the utility model is a building erected using a set of universal elements (RF Patent for Utility Model 109769 10/27/2011), which includes coating elements and contains elements of foundation structures, wall elements, floor and cover plates, lintels, various fastening, connecting and additional elements representing a single system for the erection of building structures of buildings, while all components of the set are made by extrusion of straw-plastic or wood o-plastic composite and have through cutouts and grooves rectangular, dumbbell, cylindrical and other shapes for installation of connecting elements - retainers pass utilities and stacking insulation.

The disadvantages of this invention is that it limits the range of materials possible for the manufacture of components of the set of products, as well as the fact that the elements are made by extrusion and therefore have flat adjacent faces that do not exclude the possibility of blowing or penetration of moisture through the joints of the walls blocks.

The objective of the claimed utility model is to eliminate these drawbacks by proposing a wall block that makes it possible to erect load-bearing walls and partitions of low-rise buildings from it, as well as the formation of enclosing structures of monolithic frame structures without the use of “wet” processes, which excludes blowing of joints or penetration of moisture.

The essence of the utility model is that wall blocks are formed of five rectangular parallelepipeds, joined by side faces and shifted vertically and horizontally relative to each other with the formation of grooves and ridges, with additional grooves and ridges provided on the upper and lower faces of the two middle parallelepipeds, providing bandaging of elements of adjacent rows. The blocks have internal cavities for placement of an effective insulation in them and are made of composite material by injection technology. To provide additional protection against blowing and humidification, vertical samples are provided on the vertical end faces of the blocks, into which the seal can be placed.

The inventive utility model makes it possible to erect load-bearing walls and partitions of low-rise buildings for various purposes, as well as to form enclosing structures of monolithic-frame structures with almost complete exclusion of "wet" processes. The presence of grooves and ridges facilitates the installation of blocks in the design position and eliminates errors, in connection with which installation of blocks can be performed even by unskilled workers. The existing cavities in the blocks, on the one hand, lead to a reduction in the weight of the latter, which eliminates the need for heavy lifting equipment, and on the other hand makes it possible to place an effective insulation in the indicated cavities and thus significantly improve the thermal performance of building structures. The composite material from which the blocks are made can be painted in various colors according to RAL, and injection molding technology allows you to create textured surfaces on the outer faces of the blocks, which ensures the architectural expressiveness of buildings and gives individuality to even typical structures.

Products are manufactured with adjustable parameters: the overall dimensions of ordinary wall blocks in the plan vary from 190 × 190 to 380 × 380 mm, height - from 190 to 260 mm.

In accordance with the current regulatory and technical documents, all parameters of the blocks are assigned according to the results of calculations of strength and deformation, taking into account the actual operating loads, the construction area and the purpose of the building.

It is proposed to use ecowool produced from waste paper and waste from the pulp and paper industry (for example, http://www.ecovata-rostov.ru/) as insulation in the blocks. It is environmentally friendly and, thanks to additives, non-combustible and not subject to decay and insect damage. Ecowool can be used without vapor barrier. It is inflated or poured into the cavity of the blocks, completely filling them.

The construction of the walls begins with the installation on the foundation of the blocks of the lower row, which differ from the claimed flat bottom face. These elements are attached to the foundation with glue or mortar. Further assembly of the wall occurs in a "dry" way, by combining the grooves and crests of the elements of adjacent rows. The dimensions of the grooves are 2 mm larger than the sizes of the ridges, which makes it possible to combine blocks through insulating gaskets attached to the blocks during their manufacture. Gaskets provide additional protection for walls against blowing and moisture.

The utility model is illustrated in separate drawings, where:

- in FIG. 1 shows a general view of the wall block from above (left image) and from below, with 1 denoting vertical samples, and 2 denoting the cavity of the block filled with insulation;

- in FIG. 2 shows a fragment of a wall of blocks, and the arrow indicates the installation direction of the next block;

The elements of the set can also be used when forming the walls of monolithic-frame buildings in a "dry" way. In this case, the upper row of the wall adjacent to the interfloor overlap is formed of two upper blocks that are retractable towards each other (Fig. 3). In the last figure, position 3 denotes the floor slab, position 4 represents the wall of the claimed blocks, and position 5 represents the top block.

The advantages of the proposed wall block include:

- the possibility of erecting walls and partitions of buildings of various shapes and purposes from the same elements;

- the implementation of the construction of the aboveground part of the building without "wet" processes and the need to comply with technological interruptions associated with a set of strength binders;

- a significant increase in the variability of construction objects due to a variety of decoration elements and various colors;

- improving the thermal characteristics of buildings, as well as improving their sound insulation, due to the presence of cavities filled with insulation inside the wall blocks;

- the ability to obtain parts of accurate geometric dimensions due to the industrial process for the production of composite elements by injection technology;

- environmental safety of products.

Claims (1)

A wall block made of composite materials for the erection of load-bearing walls and partitions of low-rise buildings, as well as the formation of enclosing structures of monolithic-frame structures, characterized in that the block is formed of five rectangular parallelepipeds joined by side faces and shifted vertically and horizontally relative to each other with the formation of grooves and ridges, and additional grooves and ridges are provided on the upper and lower faces of the two middle parallelepipeds to ensure the ligation of elements of adjacent rows s and excluding the use of "wet" processes in the construction of walls and partitions, the blocks have internal cavities for placement of an effective insulation in them, to provide additional protection against blowing and moistening on the vertical end faces of the blocks, vertical samples are provided in which the sealant can be placed, and the dimensions grooves are 2 mm larger than the size of the ridges, which makes it possible to combine blocks through insulating gaskets attached to the blocks during their manufacture.

Images