RU85514U1 - THERMAL INSULATING BUILDING BLOCK AND WALL OF THESE BLOCKS - Google Patents

Abstract

1. Building block, characterized in that it is made entirely of heat-insulating material and is equipped with a girdle groove dividing the block into the outer and inner parts in the form of rectangular parallelepipeds located offset from each other in vertical and horizontal planes by the amount of overlap of the surfaces of adjacent mating blocks at their laying. ! 2. The building block according to claim 1, characterized in that the thickness of the outer part of the block is greater than the thickness of the inner part of the block. ! 3. The building block according to claim 1, characterized in that it is made of wood concrete. ! 4. The building block according to claim 1, characterized in that the side walls of the girdle groove are made inclined with the expansion of the groove outward. ! 5. A wall of building blocks according to claim 1, connected by means of connecting elements, characterized in that it is provided with a frame consisting of stiffening elements placed in channels formed by the girdle grooves of adjacent stacked blocks. ! 6. The wall according to claim 5, characterized in that the stiffeners are made in the form of rods made of heat-insulating material of higher strength than the material of the building block.

Description

The utility model relates to the field of construction, in particular, to the elements of building structures, and is intended for the manufacture of building blocks using materials with high heat-shielding properties.

A known construction of a heat-insulating wall block, consisting of inner and outer concrete walls interconnected by a monolithic insulation, the concrete walls are L-shaped, their transverse part protrudes 1/6 of the thickness of the longitudinal axis of the block, and the monolithic insulation has asymmetrically located projections of a trapezoidal shape extending beyond the end surface of the block (see patent for invention RU No. 2020217, publication date 1994.09.30, IPC 5 Е04С 1/40, ЕВВ 2/02, “Thermal insulation wall block”).

The disadvantage of this wall block is the complexity of its design and the increased complexity of manufacturing, as well as the difficulty of laying these blocks when installing the wall. The recesses made on the surfaces of the block for pouring concrete when laying the blocks occupy a significant area along the width of the block, forming the so-called "cold bridges", which violate the uniformity of the heat-insulating properties of the wall and reduce its heat-shielding properties.

A device of a building block made with a heat-insulating core and having grooves on opposite large sides is also known, the core being hollow in the form of a shell-shell with an external heat-insulating layer, and the shell-shell extends with its elongated ends-additives or at one or both ends, or for one or both large sides with grooves (see patent for invention RU No. 2074934, publication date 1997.03.10, IPC 6 Е04С 1/00, Е04С 1/40, В32В 13/00, “Building block and method of its manufacture” )

The complex construction of a building block with several semi-cylindrical grooves with rounding at the ends, designed to increase the adhesion of the blocks to each other, with their traditional installation using mortar, requires thorough and complete filling of all the grooves with the mortar and a significant thickness of the masonry joint. In addition, the presence of these grooves on the surface of a building block implies the presence of thick concrete walls on the block, which have high thermal conductivity and are cold conductors along the entire width of the block from the outer surface to the inside.

The objective of the proposed technical solution is to increase the insulating properties of the building block, to reduce the weight of the block and simplify its design while ensuring high strength and load-bearing capacity of the wall erected from these blocks.

The problem is solved due to the fact that the heat-insulating building block, having grooves on opposite large sides, is made entirely of heat-insulating material and is equipped with a girdle groove that divides the block into the outer and inner parts in the form of rectangular parallelepipeds located offset from each other in the vertical and horizontal planes by the amount of overlap of the surfaces of adjacent mating blocks during their laying, while the thickness of the outer part of the block is greater than the thickness of the inner parts of the block, the side walls of the girdle groove are made oblique with the groove expanding outward, and arbolite can be used as a heat-insulating material.

The problem is also solved due to the fact that the wall of these heat-insulating building blocks is equipped with a frame consisting of stiffeners placed in channels formed by grooves of adjacent stacked blocks, while the stiffeners are made in the form of rods made of heat-insulating material with a higher tensile strength than the material of the building block, including wood concrete.

The implementation of the building block completely from heat-insulating material can significantly increase the heat-insulating properties of the block while reducing its mass.

The heat-insulating building block, consisting mainly of natural materials, in particular, woodworking waste in the form of sawdust, wood chips, bark, etc., allows the use of local materials for production, ensuring high environmental properties of these building blocks and reducing their cost.

The simplicity of the design of the heat-insulating building block, made in the form of two rectangular parallelepipeds, the external and internal, combined by a trench groove, simplifies the manufacture and masonry of building blocks, which makes their use highly efficient and widely available.

The presence between the outer and inner parts of the block of a common girdle groove for placement of stiffening elements therein, arranged horizontally and vertically in a plane parallel to the outer surface of the block, creates conditions for eliminating the so-called "cold bridges" when laying these blocks.

The design feature of the heat-insulating building block, in which the outer and inner parts are offset relative to each other in vertical and horizontal planes by the amount of overlap of the surfaces of adjacent mating blocks during masonry, provides an increase in the heat-shielding properties of the wall being constructed by eliminating the through penetration of external air through the masonry connecting seams of adjacent blocks.

Due to the fact that the thickness of the outer part of the block is greater than the thickness of the inner part of the block, the thickness of the continuous heat-insulating layer of the wall increases, increasing its heat-insulating properties.

Arbolit is an environmentally friendly material, which contains up to 90% of wood chips. Building blocks made of wood concrete do not burn, do not rot, have low thermal conductivity, provide good air exchange, are easy to process, they are light in weight, have high resistance to shock loads, have a high tensile strength under bending during foundation vibrations, and do not crack in winter.

Due to the listed advantages of arbolite compared with traditional materials, the use of building blocks made of arbolite is more economical at all stages of construction: they allow the use of lighter and cheaper foundations, reduce the consumption of cement and sand, significantly reduce the construction time of objects, do not require the use of expensive hoisting mechanisms reduce the cost of finishing work that does not require the use of stucco mesh.

During the operation of facilities built from heat-insulating building blocks made of wood concrete, the costs of heating and ventilation are significantly reduced, the installation of additional sound insulation is not required.

The execution of the side walls of the girdle groove inclined with the expansion of the groove outward allows us to simplify the technology of their manufacture, while maintaining the geometry of the groove walls and improving the quality of the produced blocks.

Stiffeners located in horizontal channels formed by grooves of adjacent stacked building blocks, intersecting with stiffeners placed in vertical channels of the wall being erected, form a power frame in the form of a spatial lattice.

A wall of light building blocks with high heat-insulating ability, equipped with a power frame, has the required stiffness and high bearing capacity, which allows to increase the height of the structures being built and to use reinforced concrete floors in them.

The presence of distinctive features in the claimed technical solution allows us to conclude that it meets the condition of patentability “novelty”.

The patentability condition "industrial applicability" is confirmed by the example of a specific implementation.

The essence of the claimed device is illustrated by technical drawings, where:

figure 1, 2, 3 presents a photo of a General view of an insulating building block;

figure 4 is a sketch of a General view of a building block;

figure 5 is an axonometric view of the wall;

figure 6 is a side view of the wall.

The building heat-insulating block is made of arbolite and consists of the outer 1 and inner 2 parts in the form of two rectangular parallelepipeds, between which there is a common girdle groove 3 of a trough-shaped section with inclined side walls with the groove expanding outward. The girdle groove 3 is placed on the supporting surfaces and end surfaces of the building block.

The inner 1 and outer 2 parts of the heat-insulating building block are displaced relative to each other in the vertical plane by a value of C and in the horizontal plane by a value of D, forming the amount of overlap of the surfaces of the joined blocks when laying in the wall.

The outer part of the building block 1 has a greater thickness than its inner part 2, to increase the heat-insulating properties of the block, while the minimum size of the inner part 2 is determined by the need to make the girdle groove 3.

The abutting surfaces of building blocks are connected using a cement-sand mortar having a layer of no more than 2-3 mm in this technical solution, since the wall frame carries the main load from the displacement of the blocks.

The wall is laid out in rows with a tab on the cement-sand mortar in the channels formed by the surrounding grooves of 3 adjacent stackable building blocks, vertical 4 and horizontal 5 stiffeners, made in the form of arbolite rods of higher strength than arbolite, which is used to make building blocks, and in strength slightly inferior to cement-sand mortar.

If it is necessary to increase the strength of the wall being constructed, its frame is formed by pouring a liquid cement-sand mortar into vertical and horizontal channels.

Claims (6)

1. Building block, characterized in that it is made entirely of heat-insulating material and is equipped with a girdle groove dividing the block into the outer and inner parts in the form of rectangular parallelepipeds located offset from each other in vertical and horizontal planes by the amount of overlap of the surfaces of adjacent mating blocks at their laying. 2. The building block according to claim 1, characterized in that the thickness of the outer part of the block is greater than the thickness of the inner part of the block. 3. The building block according to claim 1, characterized in that it is made of wood concrete. 4. The building block according to claim 1, characterized in that the side walls of the girdle groove are made inclined with the expansion of the groove outward. 5. A wall of building blocks according to claim 1, connected by means of connecting elements, characterized in that it is provided with a frame consisting of stiffening elements placed in channels formed by the girdle grooves of adjacent stacked blocks. 6. The wall according to claim 5, characterized in that the stiffeners are made in the form of rods made of heat-insulating material of higher strength than the material of the building block.