RU45422U1 - BUILDING BLOCK - Google Patents

Abstract

The utility model relates to the field of construction, namely to the construction of wall blocks used for the construction of various buildings and structures. The technical result of using the inventive utility model is to improve the insulating properties, reducing the complexity of the masonry. The building block is made in the form of a rectangular parallelepiped with through vertical slit-like voids and an installation ledge located on the upper horizontal face. According to the utility model, alternating vertical protrusions and grooves are made on the side faces of the block, and the protrusions and grooves on one of the side faces are interlocked with the grooves and protrusions of the other side face, the installation protrusion is made across the entire width of the block and is located in its middle part, and on the lower horizontal side is made corresponding to the above protrusion, ledge. In addition, at least in the grooves of the side faces, longitudinal grooves are made. The protrusions of the lateral faces in the section are made of a trapezoidal shape.

Description

The utility model relates to the field of construction, namely to the construction of wall blocks used for the construction of various buildings and structures.

Known building block according to the patent of the Russian Federation No. 2020214, IPC E 04 B 2/14, publ. 1994, bull. Number 18.

The block is made in the form of a rectangular parallelepiped with through vertical slit-like voids and a large central cavity.

The block contains protrusions and grooves on the side faces, and the height of the extreme protrusions when they are unilaterally located or their total height when bilaterally located is less than the height of the middle protrusion by the thickness of the vertical seam. When laying blocks, the side faces with protrusions form vertical grooves for subsequent filling them with a solution.

The use of known blocks for masonry exterior walls eliminates the filling of voids with mortar during masonry; qualitatively fill the vertical seam with a block length equal to the wall thickness; to form a fixed vertical mortar joint required by the norms on the outer surface of the wall.

The disadvantages of the known block are the high complexity and low productivity of the masonry due to the need to use a cement mortar in its process.

Also known is a building block for mortarless masonry walls according to the USSR copyright certificate No. 1791576, IPC E 04 C 1/00, publ.

1993, bull. Number 4.

The block is made in the form of a rectangular parallelepiped with through vertical slit-like voids. On the upper horizontal side along the contour of the voids are mounting tabs. The voids are placed in pairs. One of the pairs is parallel to the vertical end faces, and the other pair is perpendicular to them. The distance between the axes of a pair of voids is half the thickness of the block.

This solution allows to reduce the complexity of the masonry by eliminating the use of a binder solution in its process.

The known device for the combination of essential features is the closest to the claimed utility model and is selected as the closest analogue.

The disadvantages of the known device include low heat-insulating properties and high complexity during operation.

In addition, the device has low reliability.

Low heat-insulating properties are due to the possibility of penetration of external air along the smooth surfaces of the vertical and horizontal faces of the blocks.

Therefore, to improve the insulating properties of the masonry, additional means are used.

Resistance to air permeability of solution-free single-layer masonry is ensured by wet plastering of walls, which is quite ineffective from the point of view of increasing heat-insulating properties in connection with the formation of "cold bridges". Therefore, when it is possible, for example, when laying three-layer walls, an additional inner layer of slab (mineral wool boards, expanded polystyrene, etc.) or filling insulation is additionally introduced, although this significantly increases the complexity and reduces the productivity of the masonry.

The absence of fixing elements on the vertical side faces necessitates careful alignment of the blocks of the first row of masonry, which also increases its complexity.

Thin-walled installation protrusions can be destroyed both during transportation and during operation, which reduces the reliability of the device

The technical result of using the claimed utility model is to improve the insulating properties and reduce the complexity of the masonry.

The specified technical result is achieved by the fact that in the building block in the form of a rectangular parallelepiped with through vertical slit-like voids and placed on the upper horizontal edge, an installation protrusion, according to the utility model, alternating vertical protrusions and grooves are made on the side faces of the block, the protrusions and the grooves on one of the side faces are interlocked with the grooves and protrusions of the other side face, the installation protrusion is made over the entire width of the block and is located in its center days parts and the lower horizontal leg formed corresponding to the mounting protrusion, ledge.

In addition, at least in the grooves of the side faces, longitudinal grooves are made.

The protrusions of the lateral faces in the section are made of a trapezoidal shape.

The implementation of alternating protrusions and grooves on the side faces of the block, as well as the installation protrusion on the upper horizontal face and the corresponding ledge on the lower horizontal face along the entire width of the block, significantly improve its heat-insulating properties due to the formation of a “labyrinth” of the tongue-and-groove system on the faces of the blocks.

The claimed technical solution does not require the use of additional, increasing the resistance to air permeability, means (wet plaster, slab or fill insulation, etc.), providing low labor and high performance masonry.

The implementation of the protrusions of the side faces, as well as the installation protrusion, in the section of a trapezoidal shape, increases the reliability of the device, its resistance to the formation of chips and cracks.

The utility model is illustrated by graphic materials, where:

- figure 1 shows a General view of the device, a top view;

- figure 2 is a section aa in figure 1,

- figure 3 is a fragment of the masonry wall.

Building block 1 is made in the form of a rectangular parallelepiped with upper 2 and lower 3 horizontal faces, side faces 4 and 5 and smooth end faces 6 and 7. In block 1, through vertical slit-like voids are made 8. Voids 8 are made of constant section along the height of block 1, or cone-shaped for better extraction of void formers in the manufacture of the block. An installation ledge 9 is located on the upper horizontal edge 2 of block 1. The installation ledge 9 is made over the entire width of block 1, is located in its middle part and has the cross-sectional shape of an isosceles trapezoid with a large base on the upper horizontal edge 2. On the lower horizontal edge 3, corresponding to the mounting protrusion 9, the step 10. On the side faces 4 and 5 are made alternating protrusions 11 and grooves 12, and the protrusions 11 and grooves 12 on the side face 4 are interlocked with the corresponding grooves 12 and protrusions 11 on lateral face 5. In the part of the grooves 12 of the lateral faces 4 and 5, longitudinal grooves 13 are made, which fulfill the role of

(as well as slit-like voids 8 on the horizontal faces 2 and 3) of air traps. To increase the manufacturability and reliability of the design, the protrusions 9 and 11 are made in a trapezoidal shape.

When laying the walls of the claimed blocks, the protrusions 11 and the grooves 12 of the lateral edge 4 of the block 1 are aligned with the corresponding grooves 12 and the protrusions 11 of the lateral edge 5 of the adjacent block, forming a labyrinth of the tongue-and-groove system. In this case, the longitudinal grooves 13 and the upper surface of the protrusions 11 form a closed volume of the "air trap", which prevents the further penetration of external air along the side faces 4 and 5 of the blocks 1. The penetration of external air into the wall along the horizontal faces 2 and 3 is prevented by vertical slit-like voids 8, installation the protrusion 9 and the ledge 10, made across the entire width of the block 1 in its middle part.

Thus, the use of the claimed utility model allows, on the one hand, to significantly increase the insulating properties of the masonry from the proposed blocks, eliminating the need to use additional means to increase its thermal resistance, and on the other hand, to reduce the complexity of the masonry and increase its productivity.

Claims (3)

1. A building block in the form of a rectangular parallelepiped with through vertical slit-like voids and an installation protrusion located on the upper horizontal face, characterized in that alternating vertical protrusions and grooves are made on the side faces of the block, the protrusions and grooves on one of the side faces made interconnected with grooves and protrusions of the other side face, the installation protrusion is made over the entire width of the block and is located in its middle part, and on the lower horizontal face is made corresponding etstvuyuschy positioning protrusion ledge. 2. The block according to claim 1, characterized in that, at least in the grooves of the side faces, longitudinal grooves are made. 3. The block according to claim 1, characterized in that the protrusions of the side faces in cross section are made of trapezoidal shape.