RU2712905C1 - Building block - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to construction, namely, to building blocks for solution-free masonry and erection of buildings, constructions, small architectural forms. Building block is made in the form of a polyhedron, on each vertical and each horizontal face there are formed recesses in the form of cylinders and/or truncated cones along which axes in the block channels are made. In part of said recesses there are inserts forming ledges in the form of discs, on both sides of which along the axis rods fixed in said channels of adjacent blocks are fixed. Channels in section are made in form of circle or oval, or square or rectangle, or triangle.EFFECT: technical result is expansion of a number of possible versions of attachment of blocks to each other.5 cl, 13 dwg

Description

The invention relates to the field of construction, namely, building blocks for mortarless laying and erection of buildings, structures, structures and small architectural forms.

The use of traditional building blocks, bricks, mortars and structures leads to well-known limitations associated with modern construction. These limitations include: the need for a skilled workforce to achieve a permanent, reproducible result; restrictions in speed at which the limiting factor is the requirements for the curing time of the solution and restrictions in the bearing capacity of the structure due to a change in the rigidity of the connection of the blocks with each other.

The use of concrete prefabricated panels has been gaining ground in recent years, in an attempt to level out some of these limitations. The use of such panels has its drawbacks, including difficulties in adapting the panels to a particular installation site, as well as the need for mechanization of loading, transportation and installation of panels.

Self-locking building blocks have become another alternative to traditional building systems using building blocks and masonry.

So the prior art building block for building an external wall, containing a solid body with a front, rear, two end, upper and lower surfaces, as well as many protrusions and grooves on the upper and lower surfaces for fixing and aligning adjacent blocks with the formation of uniform joints, which are subsequently filled with a solution (see patent US5934037, class E04B2 / 08, publ. 08/10/1999).

The prior art building block, which can be used for the construction of masonry without the use of a solution. The building block is made in the form of a parallelepiped and contains three pairs of opposite faces, including four side faces and two faces, which are the upper and lower bases, each of the faces contains many elements forming protrusions and indentations, each element having the shape of a regular pyramid with rounded edges , and the angle at the top of the pyramid between two opposite faces is in the range from 90 to 179.9 degrees, preferably from 90 to 150, more preferably from 90 to 120, and most preferably at an angle of 90 rad. The protrusions and indentations are arranged in rows and columns, and on each side of the parallelepiped, the bases of the pyramids are located in one plane, which is the face of the parallelepiped, and the corresponding sides of the bases of the pyramids are parallel to the faces of the parallelepiped, with the sides of the base of the pyramid forming the protrusion adjacent to the corresponding sides of the bases of adjacent pyramids, forming recesses. On the lateral faces of the parallelepiped, the number of protrusions in the rows and columns is equal to the number of recesses and their sum in the rows and columns is an even number, so that the alternation of the protrusions and recesses in the rows and columns on the lateral faces is observed, and the rows and columns are located on the upper and lower bases of the parallelepiped mutually perpendicular, and the number of protrusions in rows and columns is not equal to the number of recesses and their sum is equal to an odd number, and the sum of the number of protrusions and recesses in rows is equal to the sum of the number of protrusions and recesses in the columns, so that the alternation of the protrusions and recesses in the rows and columns on the bases of the box is ensured. The protrusions and recesses on the faces of the block ensure the alignment of four blocks, three of which have pairwise adjacent faces located perpendicular to each other and contacting along the edges, and the combination of the fourth block with the indicated three is carried out along a linear path passing through the junction of three faces at an angle to each of the side faces of these three blocks in the range from 45 to 89.95 angular degrees. (see patent RU2660847, class E04B2 / 18, publ. 01/13/2016).

The prior art method of construction without a solution of the foundation and walls, including the use of mounting rods based on the first set of mechanical fasteners, according to which the wall is constructed by vertically stacking many wall blocks on threaded rods and fastening them using mechanical fastening, while many connectors are attached to the threaded rods of the reinforcement of the wall structure, and many rods are attached to the connectors of the upper part of the walls horizontally, the image a network of rods that connect the walls (see patent US8225578, class E04B1 / 38, publ. 24.07.2012).

The advantage of interlocking building blocks is that they largely occupy their design position on their own and do not require mortar, which allows for the rapid erection of structures with mostly unskilled labor. However, all the described building blocks and systems were developed taking into account a specific industrial purpose and do not allow a wide variation in the shape of the final structure.

The closest in technical essence to the present invention is a building block made in the form of a polyhedron, on each vertical and each horizontal face of which there are formed protrusions and recesses that engage with protrusions and recesses of adjacent blocks (see patent CN204919955, class E04B2 / 08, published December 30, 2015). The known device allows you to build the structure not only in the vertical, but also in two horizontal directions, while maintaining accuracy and strength of the connection. However, the known device does not provide the possibility of additional fastening of the blocks between themselves and, therefore, cannot be used for the construction of structures of complex geometry.

The technical problem is the elimination of these shortcomings and the creation of a building block, which allows you to erect buildings and structures in a short time without the use of highly skilled labor and the involvement of mechanization. The technical result consists in expanding a number of possible options for mounting blocks together.

According to the first embodiment, the problem posed is solved, and the technical result is achieved by the fact that in the building block, made in the form of a polyhedron, on each vertical and each horizontal face of which reciprocal protrusions and recesses are formed, which engage with the protrusions and recesses of adjacent blocks, these protrusions and the recesses are made in the form of truncated cones, along the axes of which in the block are made mostly communicating channels with each other. Channels can be made, at least in part of the block.

 Preferably, at least four protrusions or recesses are formed on each vertical and each horizontal face of the block. The protrusions and recesses are made in the form of truncated cones with an angle of not more than 45 °.

The building block can be made in the form of a straight parallelepiped, T-shaped, L-shaped.

The building block can be made in the form of many cubes or parallelepipeds, or combinations thereof, interconnected and forming a single whole multifaceted product of complex geometry.

The building block can be equipped with inclined sections placed at an angle of 10 - 90 degrees with the formation of a cross-shaped structure, while the protrusions and recesses are also formed at the ends of the inclined sections.

On the edge of the vertical and / or horizontal faces, recesses can be formed in the shape of half a truncated cone, forming complete cones assembled with recesses of adjacent blocks, while channel-shaped recesses can be made on the surface of these faces, forming channels together with adjacent blocks along the recesses axes . At the corners of the vertical and / or horizontal faces, recesses can be formed in the shape of a quarter of a truncated cone, forming complete cones assembled with recesses of adjacent blocks, while channel-shaped recesses can be made along the edges of these faces, forming channels together with adjacent blocks along the recesses .

The block can be equipped with inserts installed in the recesses and forming protrusions and partially included in the corresponding channels.

The block can be equipped with inserts with channels with the possibility of installing fasteners in them to fasten the blocks together.

In the second embodiment, the problem posed is solved, and the technical result is achieved by the fact that in the building block, made in the form of a polyhedron, on each vertical and each horizontal face of which there are recesses in the shape of cylinders and / or truncated cones, along the axes of which the channels are made in the block at least in part of these recesses, fasteners are installed in the form of disks, on both sides of which axes are fixed along the axis, fixed in the indicated channels of adjacent blocks.

The channels in cross section are made in the form of a circle, oval, square, rectangle, triangle.

From these building blocks, a structure can be formed that is closed around the perimeter by combining the fourth block with three neighboring blocks along a linear path passing through the junction of three faces at an angle to each of the side faces of these three blocks in the range from 1 to 89 degrees ., preferably at an angle of 45 degrees. angular.

Figure 1 presents a General view of the building block (the first basic embodiment in the form of a cube with the location of the protrusions and recesses of four on each face);

figure 2 - embodiment with an additional fifth recess on one face;

figure 3 - the second basic embodiment only with recesses on all faces (before installing the fasteners);

figure 4 is the same in section;

figure 5 - the second basic embodiment with five recesses on all faces;

figure 6 is a second embodiment with half-recesses and undercuts on one face;

in Fig.7 - the second embodiment with half and quarter recesses and recesses on all faces and ribs;

on Fig - an example of the assembly of structures from cubic blocks according to the first embodiment;

in FIG. 9 is a block embodiment in the form of a parallelepiped;

figure 10 is a variant of a T-shaped block;

figure 11 is a variant of the block with inclined sections;

12 is an example of assembly of a structure from blocks with inclined sections.

In FIG. 13 is an example of the formation of a structure by combining the fourth block with three neighboring blocks along a linear path passing through the junction of three faces at an angle (the angle is shown by an arrow)

In the first embodiment, the proposed building block 1 is made in the form of a polyhedron on each vertical and each horizontal face of which mating protrusions 2 and recesses 3 (four or five pieces) are formed, which mesh with the protrusions and recesses of adjacent blocks. Depending on the final project, the block can be made in the form of a cube, a straight parallelepiped, T-shaped or provided with inclined sections 4. In the latter case, the block is made in the form of two parallelepipeds, the longitudinal axes of which are placed at an angle of 10 - 90 °, connected crosswise in the form one whole. At the ends of sections 4, mating protrusions 2 and recesses 3 are also formed. The combination of protrusions 2 and recesses 3 can be selected on each face of block 1 in advance, or for a specific installation site.

The protrusions 2 and the recesses 3 are made in the form of truncated cones, along the axes of which the channels 5 communicating with each other are made in the block. On the edge of the faces, recesses 6 can be formed in the shape of a half of a truncated cone, forming complete cones with similar recesses of adjacent blocks 1. At the same time, channel-shaped recesses 7 are formed on the surface of the corresponding faces, forming channels along the axis of the recesses 6 assembled with adjacent blocks 1. In addition, recesses 8 can be formed along the corners of the faces in the shape of a quarter of a truncated cone, forming complete cones in assembly with the recesses of adjacent blocks . At the same time, channel-shaped recesses 9 are made along the edges of these faces, forming channels assembled with adjacent blocks along the axes of the recesses 8. The conical surface of the protrusions 2 and the recesses 3, 6, 8 makes it easy to connect the blocks 1 to each other, while ensuring accurate centering and association of the channels 5 into a single network, which, if necessary, can be filled in one operation with fixing material. In addition, the communication channels 5 among themselves provides the possibility of using through studs of various modifications. Block 1 can also be equipped with fasteners 10 installed in the recesses 3 and partially included in the corresponding channels 5.

In the second embodiment, the proposed block 1 does not contain protrusions, it only has recesses 3 in the shape of cylinders and / or truncated cones, along the axes of which channels 5 are made in the block. Fasteners 10 in the form of disks are installed in part or in all such recesses 3, on both sides of which, along the axis, rods are fixed that are fixed in the indicated channels of 5 adjacent blocks 1. In terms of additional recesses 6, 8 and channel-shaped recesses 7, 9, the same modifications are possible for this option as for the previous one.

The design of the proposed blocks is erected as follows.

Install the first block 1 on the overlap and install the following blocks sequentially. During installation, the lateral face of each subsequent block is combined with the lateral face of the previous block, while in the first embodiment, the protrusions 2 are placed in the recesses 3 without a gap, so that a single design is obtained. In the second embodiment, the blocks are interconnected by means of a fastening element 10 installed in the channel 5 and fixing their position. For the formation of an inclined beam using blocks with inclined sections 4. Linking the blocks 1 together and connecting them with fasteners or fixing material, assemble the desired design. In this case, the blocks 1 are laid relative to the axis of the center of the masonry in one of the directions and build up without displacement.

Thus, the present invention allows for the implementation of solutionless construction of rigidly connected masonry of vertical, inclined, domed, pyramidal and any other design. In addition, the unit has the ability to attach trim elements and various communications in the grooves on the side faces. At the same time, the proposed design allows you to expand a number of possible options for fastening blocks to each other both simply due to gravity and friction, and with the help of local fasteners, studs, or a combination thereof.

Claims (5)

1. A building block made in the form of a polyhedron, on each vertical and each horizontal face of which there are formed recesses in the form of cylinders and / or truncated cones, along the axes of which channels are made in the block, with inserts installed at least in part of these recesses, forming protrusions in the form of disks, on both sides of which along the axis are fixed rods fixed in the indicated channels of adjacent blocks, while the channels in cross section are made in the form of a circle or oval, or a square or rectangle, or a triangle. 2. The building block according to claim 1, characterized in that the recesses, on the edge of the vertical or horizontal faces formed in the shape of a half truncated cone, form complete cones with the recesses of adjacent blocks. 3. The building block according to claim 1, characterized in that it is preferably made in the form of a cube. 4. The building block according to claim 1, characterized in that it is made in the form of a straight parallelepiped, T-shaped, L-shaped. 5. The building block according to claim 1, characterized in that it is made in the form of many cubes, or parallelepipeds, or combinations thereof, interconnected and forming a single whole multifaceted product of complex geometry.

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