RU139255U1 - BUILDING BLOCK AND SPOON LAYER OF THESE BLOCKS - Google Patents

Abstract

1. A building block for spoon masonry, which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two parallel holes of the same shape in plan view of through holes are made in the block, with the longitudinal axis of each hole perpendicular to the plane of the bed side, characterized in that it is made with at least two protrusions of a parallelepiped shape, which are made integral with the body of the building block and placed wife perpendicular stretcher faces, the end of each projection is flat, each ridge side faces binder is spaced from the faces of the binder less than half the distance between the projections on the seam thickness masonry mortar or adhesive shva.2. Block according to claim 1, characterized in that the thickness of the seam is 2-15 mm. 3. Spoon masonry of building blocks, consisting of in-line placement of building blocks, each of which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two vertically oriented vertically oriented identical planes are arranged in the block the shape of the through holes, and in a row the building blocks are interconnected by seams between the butt edges, characterized in that each building block is made with the edge it least two parallelepiped-shaped projections arranged perpendicularly to the stretcher face and end face of each of which is flat, and in each row of masonry blocks are arranged with said projections locate n

Description

The utility model relates to the field of construction, namely to the construction of building blocks or bricks with voids of various geometric shapes and masonry from them, and can be used in the construction of external load-bearing walls of buildings and structures.

Also known is a building block made in the form of a rectangular parallelepiped containing rows of through holes located along the spoon face placed offset from each other in adjacent rows, each row of through holes formed by two identical main rectangular through holes and one additional through hole made square (RU 17052, E04C 1/00, publ. 10.03.2001). This decision was made as a prototype.

This building block due to the creation of a sufficiently large number of small (slit-like) through holes has an increased percentage of voidness, which allows to reduce the thermal conductivity and increase the heat efficiency of the building block and the outer walls of buildings and structures from such building blocks. However, these voids cannot be considered as channels for laying engineering communications or power elements of wall reinforcement. This is due to the fact that, firstly, the dimensions of the holes do not allow any long element to pass through them, and secondly, the lack of an optimized location of the holes in the building block does not allow for laying in 1/2 or 2/3 or 3/4 of a brick (block) combine the hole of one with the hole lower or upper located with the offset of another brick (building block). The impossibility of forming, when laying blocks of through vertical channels in the wall, necessary for use for various purposes - for laying communications, for hardening the masonry with reinforcing elements, including by creating in full or in part the height of the wall of the vertical channels of an equal strength monolithic reinforced concrete structure, and / or for masonry insulation with bulk insulating materials with vertical filling on top of more than one row - causes insufficient applicability of the building block.

The technical result of the utility model is to increase the operational properties of a building block when laying masonry from such building blocks by optimizing their voidness for organizing vertically oriented channels in the wall when laying masonry for laying communications and / or for insulating masonry with heat-insulating rigid and / or bulk materials and / or for subsequent hardening of masonry with reinforcing elements.

The specified technical result is achieved in that the building block for spoon masonry, which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two parallel holes of the same shape are made in the block along the spoon face of the same shape in terms of through holes while the longitudinal axis of each hole is perpendicular to the plane of the bed side, made with at least two protrusions of a parallelepiped shape, which are made integral with the body with roitelnogo unit and disposed perpendicularly to the stretcher face end of each projection is flat, each ridge side faces binder is spaced from the faces of the binder less than half the distance between the protrusions on the suture masonry mortar thickness.

The indicated technical result is also achieved by the fact that in a spoon masonry of building blocks, consisting of in-line placement of building blocks, each of which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least , two vertically oriented consecutively located along the spoon face along the same shape plan through holes, and in a row building blocks are interconnected by seams between the butt faces, Each building block is made with at least two protrusions of a parallelepipedal shape, perpendicular to the spoon face and the end of each of which is flat, and in each row of masonry these blocks are arranged with the protrusions on one side of the masonry, for the formation of vertically oriented channels between the protrusions and when combining the through holes between the rows of building blocks in each building block, the thickness of the wall separating the extreme through hole from the bonding face in the direction and from one bonded edge to another bonded edge parallel to the surface of the spoon-shaped face, less than the wall thickness in the same direction dividing the through holes between each other is made by the thickness of the seam between the bonded faces of adjacent building blocks.

These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

This useful model is illustrated by specific examples of execution, which, however, are not the only possible ones, but clearly demonstrate the possibility of achieving the desired technical result.

In FIG. 1 shows a general view of a building block with two protrusions;

FIG. 2 - shows a General view of a building block with three protrusions;

FIG. 3 - shows a General view of a building block with four protrusions;

FIG. 4 is an example of the position of the building blocks of FIG. 1 in a row of masonry;

FIG. 5 is an example of the masonry of building blocks of FIG. 1 with a shift of 1/2 in the first row of masonry blocks relative to each other and with a shift of 1/2 of each subsequent block in each upper row relative to the underlying block, the use of inserts in the voids of the block and in the channels formed during masonry is also shown;

FIG. 6 is an example of the masonry of building blocks of FIG. 5 with the closing of the channels panel.

According to this utility model, the construction of a building block or brick with voids for spoon masonry is considered, which is a rectangular parallelepiped 1 in shape with two spoon 2, two butt 3 and two bed 4 faces (Fig. 1, Fig. 2, Fig. 3) . At least two vertically oriented through holes 5 of square or rectangular or round or other geometric shape (oval or polygonal) in plan are made in the body of such a block. The through holes in the building block are identical in shape in plan along the line E1-E2 (along the spoon face), i.e. the geometric shape of the inner voids 5 and the open recesses 7 may be the same or different. In FIG. 1 shows a building block in the body of which there are two through holes 5 rectangular in a horizontal section, arranged in series along a spoon face. In FIG. 2 in the body of the building block there are three through holes 5 rectangular in horizontal section, arranged successively along the spoon edge, and FIG. 3 shows a block where there are four such through holes 5. These building block body examples are preferred. A feature of the building block under consideration is that it is made with protrusions 6 of a parallelepiped shape, which are made integral with the body of the building block and are located perpendicular to the spoon face (Fig. 1-3). In FIG. 1 shows a building block in which there are two such protrusions 6, in FIG. 2 such protrusions 6 three. In FIG. 3 shows a building block having four protrusions 6. The protrusions 6 are made equal to the height of the spoon face, and are parallelepipeds in shape with flat faces. In the embodiment of FIG. 1, FIG. 2, FIG. 3 when the geometrical shape of the recess 7 repeats or is partially equal to the inner void 5, the protrusions 6 are located at such a distance from the adjacent spigot edge that between the adjacent protrusions an open recess 7 is formed, partially or completely repeating in plan the shape of the through hole 5 in the block body. So in the block of FIG. 1 there is one recess 7 between the protrusions 6, in the block of FIG. 2 there are two recesses 7, and in the block of FIG. 3 there are three recesses 7.

A feature of the shape of the through hole 5 in the plan is that it must be symmetrical with respect to two mutually perpendicular axes or planes of symmetry extending in the direction parallel or perpendicular to the surface of the spoon face. In FIG. 4 and FIG. 5 shows how, when laying, two adjacent building blocks of FIG. 1 can be joined to each other in each row in the same plane through the vertical layer 9 of masonry mortar / glue (masonry seam) along the bonded faces with the location of all the protrusions 6 of all blocks on one side of the masonry. This allows you to organize vertically oriented open channels in the masonry in the masonry from the inner side 8 or from the outer (outer) side of the closed channels 11, formed by combining the vertical openings 7 and the inner voids 5, respectively. Such channels can be used for various purposes, including for warming or reinforcing masonry, as well as for laying utilities.

In FIG. 4 shows how when laying rows of blocks in FIG. 1 open channels 8 formed during the masonry process are formed by connecting the recesses 7 of each of the adjacent blocks joined in the same plane along the protrusions of 6 blocks through bonded faces by connecting through the vertical layer of masonry mortar 9.

In FIG. 2 shows a building block with three holes 5 and three protrusions 6, and FIG. 3 shows a building block with four holes 5 in the body and four protrusions 6. In the examples of FIG. 1, FIG. 2, FIG. 3, the protrusions 6 are made equal in height to the height of the spoon face, and are parallelepipeds in shape with flat faces. Each protrusion on the side of the bonded face 3 is located at a distance from this bonded face 3, equal to half the distance between the protrusions reduced by the thickness of the vertical seam of the masonry mortar.

When laying and joining in the same row two building blocks of FIG. 1, a mortar is inserted between each other between the butt edges and forms a vertical masonry seam 9. An example of such a row of masonry from building blocks of FIG. 1 is shown in FIG. 4. The next upper row is laid through the masonry mortar / glue 12 onto the previous (lower) block with a block offset of 1/2 relative to the blocks in the previous (lower) row (Fig. 5). When optimizing the size of the through holes 5 and recesses 7 in the masonry, vertical channels 11 and 8 can be arranged, while such channels will have a height equal to the height of the wall (Fig. 4). In this regard, some optimization requirements must be presented to the shape of the holes in the plan and their location to the body of the building block with respect to the poke and spoon faces. Only with an optimized arrangement, such openings with direct or offset laying 1/2 or 1/3 steps allow the formation of vertically oriented channels.

To solve the joint problem of creating vertically oriented channels in the body of the block and using them as communication paths, the size and shape of the hole located along the line E1-E2 (along the spoon face) is chosen based on the considerations below.

Building blocks during masonry with an overlap of 1/2 the length of the block (for example, in Fig. 1) should be located so that the holes of some blocks overlap the holes of other building blocks, forming vertical through channels of the same channels.

It is taken into account that the building blocks are interconnected in the masonry by means of a mortar having a predetermined thickness “c” (the size of the vertical joints 9 in the masonry).

In the illustrated embodiments of the masonry of FIG. 4 and FIG. 5, the building block of FIG. 1 is provided with two holes 5 located along the spoon face and made of the same shape (geometric) and dimensions in terms of. Blocks are laid in masonry through vertical joints 9 from masonry mortar having a predetermined thickness "c" (width). The thickness (width) of the jumper “g1” between the holes 5 in a row, measured on the surface of the bed side along an imaginary line E1-E2, drawn parallel to the surface of the spoon side, is greater than the sum of the thicknesses h1 and h2 of the jumper between the holes 5 and the surfaces of the butt faces 3 of the block measured along the same line, by the value of "c" equal to the specified thickness of the vertical layer of masonry mortar 9 between the blocks during masonry, that is, the equality

g1 = h1 + h2 + c,

where g1 is the thickness of the jumper between the holes 5 in the block;

h1 is the thickness of the jumper on the first bonded face, measured along the imaginary line E1-E2 indicated above;

h2 is the thickness of the jumper on the second bonded face, measured along the same imaginary line E1-E2 indicated above;

c - the specified thickness of the vertical layer of the masonry mortar / glue (seam) between the blocks during masonry.

Typically for masonry, such a vertical seam 9 has a thickness of 6-15 mm (usually 9-12 mm), sometimes the thickness of the masonry seam can be reduced to 2 mm using special masonry glue. In fact, the thickness of the horizontal seam 12 for a brick or building block is constant, that is, an unchanged value. Regardless of the size of the building block, the horizontal and vertical seam is applied in a standard size, that is, in the range of 6-15 mm (article "Types of masonry", posted on the Internet in online access at: http: //works.tarefer .ru / 82/100076 / index.html), however, seam 9 and seam 12 can be reduced to 2 mm when using modern adhesive masonry mixtures / solutions. Thus, in relation to masonry, we can say that one building block is located from another building block at a distance equal to the size of the vertical seam 9 and above the other at a distance of the horizontal seam 12.

In the presented embodiment (Fig. 1), the block is made with one recess, width h3 between the protrusions 6 located on the block on one of the butt sides 2. To form vertical channels that are identical in plan shape due to the formation of through holes 8 between the joined faces of the protrusions and through holes between the corner zones on the other side of the protrusions, it is necessary that when laying with an offset of 1/2 through holes overlap each other between the rows. For this, it is necessary that the width h3 of the recess between the protrusions 6 is equal to the sum of the widths h4 and h5 of the corner zones of the block, which are formed between the protrusion and the adjacent bonding face, plus the thickness “c” of the vertical layer of masonry mortar / glue (joint) between the blocks at masonry, that is, the following equality holds:

h3 = h4 + h5 + c,

where h3 is the width of each recess formed by the protrusions on one of the butt sides of the block;

h4 is the angular zone on the first bonded edge, measured along the imaginary line E1-E2 indicated above from the nearest protrusion to this (first) bonded edge;

h5 is the angular zone on the second bonded edge, measured along the imaginary line E1-E2 indicated above from the nearest protrusion to this (second) bonded edge;

c - the specified thickness of the vertical layer of the masonry mortar / glue (seam) between the blocks during masonry.

In the optimal (ideal) embodiment, the thickness (width) of the protrusions 6 measured along the imaginary line E1-E2 above equal to g2 will be equal to the thickness (width) of the jumper “g1” between the holes 5 in a row, and the width h6 of the holes 5 measured along the imaginary line indicated above E1-E2 will be equal to the width h3 of each recess formed by the protrusions on one of the butt sides of the block measured along the imaginary line E1-E2 indicated above.

This optimization is based on the fact that the protrusions in the block are made identical and are located symmetrically with respect to a plane passing perpendicular to the spoon face through its middle (at the same distance from the butt faces).

Similar conditions will be fulfilled for the spoon masonry of building blocks made with three or four through holes in the body and with three or four protrusions, respectively (Fig. 2 and Fig. 3, respectively).

In FIG. 4 and FIG. 5 shows an example of masonry from the blocks of FIG. 1 using inserts 10 equal to the height of the block, which can be made of heat-insulating or other material specified by the project.

Nothing prevents the use with the blocks of FIG. 1-3 inserts with a height greater than the height of the block (this option is not presented).

In the process of laying blocks into vertical rows in the masonry, whole communicating vertical rows of through voids will be formed in the form of certain equal geometrical closed channels 11 and equal geometrical channels 8 open from the inside of the masonry to the entire wall height (Fig. 5 and Fig. 6). These formed vertical channels 11 (openings) can be used for backfilling bulk insulation: expanded clay, vermiculite, chips of foam glass, polystyrene foam, expanded polystyrene, expanded polystyrene, etc., or for reinforcing masonry with reinforcing elements, for joining rigid heaters in vertical channels of the wall to the joint , without penetration of masonry mortar / glue. Channels 8, which are vertical to the entire height of the masonry, can also be used for laying communications 13 (Fig. 6) - electrical wiring, pipes, telephone cables, etc. The purpose of these channels can be taken into account in the design and construction of the building (for example, there is no need for the subsequent operation of “punching” the walls under the hidden wiring of communications in the wall, which is laid during the construction of the wall).

In the through holes 5 of the blocks and in the recesses 7 between the protrusions 6 can be installed liners 10 of a given heat-insulating or other special material. The liners 10 may repeat in shape the shape of the through hole in the body of a rectangular parallelepiped and be made with a height equal to the height of this through hole. Such inserts 10 can be inserted into all the through holes in the body of the unit or only to part of them. The same inserts 10 are used for placement in formed through holes, which are formed during spoon laying when the bonded edge of one building block adjoins the bonded edge of the stacked building block or in the recess 7 when laying the blocks in a row. Some inserts may have a height greater than the height equal to the height of the through hole by an amount equal to the thickness of the horizontal layer 12 of the binder (masonry) mortar (adhesive) of the seam with a height of 2 to 15 mm.

The liner may be made solid or hollow in the form of a thin-walled shell or in the form of a tubular element. The insert is made of heat-insulating material or an insulating or other special material, or in a combination of such materials. The insert is used to solve the joint task of creating channels to increase the path length of the heat flux in the body of the block, weaken the strength of the heat and / or sound flux and use them as communication paths.

Placing in at least part of the through holes of all or part of the building blocks of the liners protruding above the blocks of the laid row at the double height of the horizontal seam of the masonry mortar, provides the formation of guides for the next row of masonry. After uniform laying on top of the blocks of the base row of masonry mortar, liners stick out above the masonry mortar to the height of the horizontal seam between the rows, being guides for installing on top of the blocks of the next row. This process is repeated during the laying of each subsequent row. If the height of the protruding part of the liner is equal to the thickness of the seam, then such liners will increase the path of cold air through the masonry seam and the masonry as a whole.

Channels 11 (Fig. 5 and Fig. 6), formed vertically by masonry by the coincidence of through holes 5 in the blocks, can be used for insulation with inserts 10 or for installation of reinforcement in them and subsequent pouring with concrete to form power monolithic equal strength reinforced concrete masonry binding elements. Open channels 8, formed by combining the recesses 7 along the height of the masonry, can also be used for laying communications 13 - electrical wiring, pipes, telephone cables, etc. (Fig. 6). Also, vertical channels 8 can be adapted to create a monolithic equal strength reinforced concrete structure. The purpose of these open channels 8 can be taken into account in the design and construction of the building (for example, there is no need for the subsequent operation of “punching” the walls under the hidden wiring of communications in the wall, which is laid during the construction process before the last stage of wall decoration. Outside, these open channels are closed by building panels 14 , which can then be considered as a flattened wall (Fig. 6). In the case of mounting panels 14 using special quick-detachable fastening systems, the advantage of this is Rianta is the possibility of quick access to stowed in vertical channels 8 Communications 13.

The use of this utility model in the field of construction during the laying of the external walls of civil and industrial buildings and structures and during the construction of external load-bearing walls of buildings and structures makes it possible to increase the thermotechnical properties of masonry from such building blocks by increasing the voidness of building blocks to increase the length of the heat flow path block.

Claims (3)

1. A building block for spoon masonry, which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two parallel holes of the same shape in plan view of through holes are made in the block, with the longitudinal axis of each hole perpendicular to the plane of the bed side, characterized in that it is made with at least two protrusions of a parallelepiped shape, which are made integral with the body of the building block and placed wife perpendicular stretcher faces, the end of each projection is flat, each ridge side faces binder is spaced from the faces of the binder less than half the distance between the projections on the seam thickness masonry mortar or adhesive seam. 2. The block according to claim 1, characterized in that the thickness of the seam is 2-15 mm. 3. Spoon masonry of building blocks, consisting of in-line placement of building blocks, each of which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two vertically oriented identical in terms of the shape of the through holes, and in a row the building blocks are interconnected by seams between the butt faces, characterized in that each building block is made along the edge at least two protrusions of a parallelepipedal shape, perpendicular to the spoon face, and the end of each of which is made flat, and in each row of masonry these blocks are arranged with the protrusions on one side of the masonry, while for the formation of vertically oriented channels between the protrusions and when matching through holes between the rows of building blocks in each building block, the wall thickness separating the extreme through hole from the bonding edge, in the direction from one bonding edge to the other bonding oic faces parallel to the surface faces the stretcher is made smaller than the wall thickness in the same direction between a separating through holes on the thickness of the seam between adjacent facets tychkovymi disposable building blocks.

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