RU125598U1 - SPOON LAYER (OPTIONS) AND BUILDING UNIT (OPTIONS) FOR THIS Masonry - 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 vertical rectangular shapes are arranged in series along the spoon face in plan view of the through holes, while the longitudinal the axis of each hole is perpendicular to the plane of the bed side, characterized in that the thickness of the wall separating the extreme through hole from the bonded edge, in the direction from one bonded edge to dr goy binder 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 masonry with stretcher construction blokov.2. The block according to claim 1, characterized in that the through holes in the building block are made identical in shape in plan. The block according to claim 1, characterized in that the thickness of the seam is 8-15 mm. A building block for spoon masonry, which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two vertical rectangular shapes are arranged in series along the spoon face in terms of through holes, with the longitudinal axis of each the holes are perpendicular to the plane of the bed face, characterized in that protrusions oriented along the height of these faces are made on the bonded faces at a distance from each other, distance m I am waiting for a binder which faces greater than the distance between the projections on the faces to the other binder taken

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 up to three floors high.

A known building block with through vertical voids of rectangular cross section, in which heat-insulating liners are installed (RU 2352733, publ. 04.20.2009).

The presence of through holes in the building block provides a sufficiently high percentage of voidness, which allows the block to perform both structural and heat-insulating functions in the outer walls of buildings, leading to a reduction in energy consumption for heating buildings. However, the arrangement of the rows of through holes of such a building block causes its increased thermal conductivity in both the poke and spoon directions of the heat flow, and reduces the thermal properties of the building block in the outer 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 located 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, Е04С 1/00, publ. 10.03.2001). This decision was taken 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 the hole of one to be combined with 1/2 or 2/3 of the brick hole below or top 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, including by creating, in part of the vertical channels, a monolithic equal strength reinforced concrete structure uctions.

The specified technical result is achieved by the fact that in the building block for spoon masonry, which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two vertical rectangular planes are arranged in series along the spoon face in plan through holes, while the longitudinal axis of each hole is perpendicular to the plane of the bed side, the thickness of the wall separating the extreme through hole from the bonded side, in the direction From one bonding face to another bonding face parallel to the surface of the spoon face, less than the wall thickness in the same direction dividing the through holes between each other by the thickness of the seam between the bonded faces adjacent to the masonry.

The specified technical result is achieved by the fact that in the building block for spoon masonry, which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two vertical rectangular planes are arranged in series along the spoon face in plan through holes, while the longitudinal axis of each hole is perpendicular to the plane of the bed face, oriented on heights on the butt faces these faces are protrusions, the distance between which on one bonded face is greater than the distance between the protrusions on the other bonded face to accommodate the protrusions of one bonded edge between the protrusions of the other bonded edge during spoon laying, while the wall thickness separating the extreme through hole from the bonded edge, in the direction from one bonded face to another bonded face parallel to the surface of the spoon-shaped face is made smaller than the wall thickness in the same direction dividing through holes between each other by the thickness of the solution layer pa pledged tychkovymi between adjacent edges when the stretcher disposable masonry building blocks.

The specified technical result is achieved by the fact that in the building block for spoon masonry, which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two vertical rectangular planes are arranged in series along the spoon face in plan through holes, while the longitudinal axis of each hole is perpendicular to the plane of the bed face, oriented on There are protrusions at the height of this face, and a protrusion is made on the other bonded face, with a width not exceeding the distance between the protrusions on the other bonded face for placement between the protrusions during spoon laying, while the wall thickness separating the extreme through hole from the bonded edge, in the direction from one bonded edge to the other bonded face 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 laid between the bonded edges adjacent to lagging when laying masonry building blocks.

The specified technical result is achieved by the fact that in a spoon masonry, consisting of a row placement of building blocks, each of which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two blocks are arranged in series along the spoon faces of vertical rectangular shape in terms of through holes, while the longitudinal axis of each hole is perpendicular to the plane of the bed face, and in a row of building blocks are connected m Between the seams between the bonding faces, in each building block the wall thickness separating the outermost through hole from the bonding edge, in the direction from one bonding edge to another bonded edge parallel to the surface of the spooned edge, is made smaller than the wall thickness in the same direction separating each other through holes, to the thickness of the seam between the butt edges adjacent to the spacer masonry.

The specified technical result is achieved in that in a spoon masonry, consisting of two-row placement of building blocks with voids up, each of which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two located sequentially along the spoon face of a vertical rectangular shape in terms of through holes, while the longitudinal axis of each hole is perpendicular to the plane of the bed face, and in a row, build The blocks are interconnected by seams between the butt faces, in each building block the thickness of the wall separating the extreme through hole from the butt edge, in the direction from one butt edge to the other butt edge parallel to the surface of the spoon face, is less than the wall thickness in the same direction, dividing through holes, to the thickness of the seam between the butt faces adjacent to the spoon masonry, in which at least part of the building blocks adjoin each other with spoon faces and are located with voids upwards perpendicular to building blocks adjacent to each other by jagged faces.

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.

Figure 1 shows a General view of a building block with two through holes in the body;

figure 2 - shows a General view of a building block with three through holes in the body;

figure 3 - shows a General view of a building block with four through holes in the body;

figure 4 - shows a General view of a building block with three through holes in the body and with three protrusions on the bonding faces;

figure 5 - shows a General view of a building block with three through holes in the body and with four protrusions on the bonding faces;

6 - shows a General view of a building block with four through holes in the body and with protrusions on the bonding faces;

Fig.7 - spoon masonry of the building blocks of Fig.1;

Fig.8 - spoon masonry of the building blocks of Fig.2;

Fig.9 - spoon masonry of the building blocks of Fig.5;

figure 10 - spoon masonry of the building blocks of figure 4;

11 - two-row spoon masonry of the building blocks of figure 1;

figure 12 - double-row spoonful of masonry from the building blocks of figure 1, the masonry with a shift of 1/2;

Fig.13 is an example of a spoon masonry of building blocks of Fig.1.

According to the present invention, 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 poke 3 and two 4 bed faces (Figs. 1-3). In such a block, at least two vertical through holes 5 are made of square or rectangular or round or other shape (oval or polygonal) in plan. A feature of the shape of the hole 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. This is due to the fact. that during masonry, two adjacent building blocks can be joined to each other through a mortar layer (seam) both on the butt edges and on the butt edge of one building block and along the spoon edge of the other building block.

Another feature of the building block is that its voids (through holes 5) are designed to form vertical channels in the masonry, while such channels can have a length or height equal to the height of the wall. 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 2/3 steps allow the formation of vertically oriented channels.

Figure 1-3 shows the first three examples of the implementation of the building block with the flat surfaces of the spoon, bonder and bed faces. In shape, such a building block corresponds to the shape of a brick and does not bear any protrusions or grooves on these faces. The number of holes in such a building block can be two (figure 1) or three (figure 2) or four (figure 3).

When spoon masonry, for example, when the blocks are joined with the butt edges, a solution layer is introduced between the latter, called a seam 6. Typically for a masonry, such a seam has a thickness of 8-15 mm (usually 9-12 mm). In fact, the thickness of the seam for a brick or building block is a constant, that is, an unchanged value. Regardless of the size of the building block, the joint is used in a standard size, that is, in the range of 8-15 mm (article "Types of masonry" posted on the Internet in online access at: http://works.tarefer.ru/ 82/100076 / index.html). Thus, with regard to masonry, we can talk about that. that one building block is located from another building block at a distance equal to the size of the seam.

Figure 4-6 shows the same building block as in Figure 1-3, which is made with positioning elements of the building blocks relative to each other in row laying. Such positioning elements are protrusions that are formed on the bonded edges of the building element, so that the abutting surfaces of adjacent building blocks form a structural lock on the father-mother principle or a groove-comb when laying the blocks into the wall on the bonded side of the masonry.

Figure 4 shows a building block with three through holes 5, on one bonded edge of which protrusions 7 oriented along the height of this edge are made at a distance from each other, and on the other bonded edge is made one wide protrusion 8, the width of which is no more than the distance between the protrusions on another bonded face for placement between the protrusions during spoon laying. When spoon masonry (figure 10), a wide single protrusion of one building block is placed between two narrow protrusions on the butt edge of another building block. Thus, both blocks are positioned in a row. In addition, the height of the protrusions on the bonding faces is equal to or less than the thickness of the seam, which allows guaranteed to withstand the seam.

Figures 5 and 6 show building blocks with three and four through holes, on the butt faces of which protrusions 9 are oriented at a height from these faces, the distance between them on one butt face is greater than the distance between the protrusions 10 on the other butt face to place the protrusions of one bonded edge between the protrusions of another bonded edge during spoon laying. When spoon masonry (Fig.9), the protrusions 10 with a small distance between each other of the building block are placed between two more widely spaced protrusions 11 on the butt edge of another building block. Thus, both blocks are positioned in a row. In addition, the height of the protrusions on the bonding faces is equal to or less than the thickness of the seam 6, which allows guaranteed to withstand the seam.

Building blocks are intended for masonry in one (Fig.7-9) or two rows (Fig.11 and 12) in series. Rows are obtained only spoon. Transverse vertical seams of each upper row overlap with blocks of the other row 1/2 block in the spoon rows. Blocks in dimensions can have both square and rectangular shape in plan. Blocks are connected using various building mixtures or adhesives. In the process of laying holes in the building blocks, whole connected vertical rows can be formed in the form of certain geometric columns over the entire height of the wall. These holes can be used to fill bulk insulation: expanded clay, vermiculite, crumbled foam glass, polystyrene foam, expanded polystyrene, expanded polystyrene, etc., or to reinforce masonry with reinforcing elements, to join rigid heaters in vertical ducts of the wall to the joint, without penetration of masonry mortar / glue.

During the laying process, through vertical holes and grooves of blocks can be formed through vertical channels to the entire height of the wall. These channels can be used for laying communications - 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).

Thin-walled liners made of heat-insulating material can be installed in the holes (Fig. 3).

To solve the joint task 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 is chosen based on the considerations presented below.

Building blocks during masonry with an overlap of 1/2 the length of the block 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 connected in the masonry with each other by means of a mortar having a predetermined thickness “c” (joint size).

In the presented embodiment of the masonry (Fig. 7), the building block is equipped with two holes 5 located along the spoon face and made of the same shape (geometric) and size in terms of plan. The thickness of the jumper “g” 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 4 and the surfaces of the butt faces of the block, measured along the same line, the value of "c" equal to the specified thickness of the solution layer between the blocks during masonry, that is, the equality

g = hl + h2 + s,

where g 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 layer of mortar / glue (seam) between the blocks during masonry.

In the presented embodiment (Fig. 8), the block is equipped with three holes 5 located along the spoon face and made identical in terms of shape (geometric) and dimensions, while the thickness of the jumper “g” between the holes 4 in a row, measured on the surface of the bed face along an imaginary line E1-E2, drawn parallel to the spoon face, is greater than the sum of the thicknesses h1, h2 of the jumpers between the holes 4 and the surfaces of the butt faces of the block, measured along the same line, by a value of "c" equal to the specified thickness of the solution layer between bl when laying, that is, the equality holds:

g = hl + h2 + c,

where g is the thickness of the jumper between the holes 1, 2, 3 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 is the specified thickness of the mortar / glue layer between the blocks during masonry.

A similar condition will be fulfilled for the spoon masonry of building blocks made with four through holes in the body.

With respect to the thicknesses of the side bridges 11, that is, the walls separating the through holes 5 from the surfaces of the spoon faces, two possible variants of the thicknesses of these bridges are considered here. If the masonry is in-line, as shown in Figs. 7 and 8, that is, the building blocks in each row are joined through the seam with butt edges, then the thickness of these jumpers does not affect the formation of through channels strictly vertically without displacing the holes in relation to each other. This is because the optimization of the position of the through holes is given by the corresponding ratio of thicknesses changed along the imaginary line E1-E2. Moreover, in terms of shape, the holes should be symmetrical with respect to the imaginary line E1-E2.

If the masonry is carried out with a change in the position of the blocks in two rows, as shown in Figs. 13 and 14, then for the thicknesses of the side jumpers, that is, the walls separating the through holes 4 from the surfaces of the spoon faces, the ratio according to which the thickness of the side bridge , that is, the wall separating the through hole 4 from the surface of the spoon face should be equal to the thickness of the jumper separating this hole from the outer surface of the bonded face. At the same time, for the blocks used for such masonry, it is necessary that the holes are axisymmetric in plan (circle, square, rhombus, polyhedron with an even number of sides six or more - eight. Ten, etc.).

In the presented embodiment (Fig. 9), a building block with two voids inside of Fig. 1 or four voids in the body (Fig. 10) can be equipped with two protrusions on both butt sides on the groove-comb system, can also be protrusions are formed on one spoonful face, or on both spoonful sides of the block, which in the latter case also form a groove-comb system.

Moreover, the protrusions on the stick and / or spoon faces can be equal to or less than the specified value "c" from the block formula:

g = hl + h2 + c,

where g is the thickness of the jumper between the holes 1, 2 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 is the specified thickness of the mortar / glue layer between the blocks during masonry.

These building blocks are used for different types of spoon masonry.

For example, in Figs. 7-9, a spoon masonry is shown, consisting of a row placement of building blocks, each of which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, at least two consecutively arranged along the spoon face are made in the block vertical rectangular in terms of through holes, with the longitudinal axis of each hole perpendicular to the plane of the bed side, and in a row of building blocks are interconnected by seams between the butt yum. In each building block, the wall thickness separating the extreme through hole from the bonded edge, in the direction from one bonded edge to another bonded edge parallel to the surface of the spooned edge, is less than the wall thickness in the same direction that separates the through holes, by the joint thickness between with jabbing edges adjacent to the masonry.

In the presented embodiment (Fig. 11), a spoon masonry of the wall along the voids inside the block of blocks with two internal voids in Fig. 1 is shown without protrusions in two rows without block shifting in the second row. And in the presented embodiment (Fig. 12), a spoon masonry of the wall is shown along the voids inside the block of blocks with two internal voids in Fig. 1 without protrusions in two rows with a shift of the blocks in the second row.

According to another example of execution (Fig. 13), the spoon masonry may consist of two-row placement of building blocks with voids up, each of which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two are made in the block arranged sequentially along the spoon face of a vertical rectangular shape in terms of through holes, the longitudinal axis of each hole being perpendicular to the plane of the bed face, and in a row Oka linked seams between tychkovymi faces. In each building block, the wall thickness separating the extreme through hole from the bonded edge, in the direction from one bonded edge to another bonded edge parallel to the surface of the spooned edge, is less than the wall thickness in the same direction that separates the through holes, by the joint thickness between poking faces adjacent to the spoon masonry, in which at least part of the building blocks adjoin each other with spoon faces and are located with voids upward perpendicular to the building blocks Kam adjacent to each other by jabbing faces.

In the presented embodiment (Fig. 13), an example of a spoon masonry of a wall along the voids inside a block of blocks with two internal voids in Fig. 1 is shown without protrusions of the masonry width in two rows with a block shift in the second row of the masonry height in three rows and subsequent bonded masonry of the same blocks in figure 1 without protrusions in a row for dressing the wall, after which the procedure of the combined masonry is repeated. Between the rows, through three rows, the masonry is reinforced with a building mesh made of metal or of other materials intended for reinforcement. In this alternating spoon and bonded masonry, the formation during laying in the wall of channels vertical in all its height from the holes 4 of the same shape (geometric) and size in terms of planes is achieved. The wall thickness with this method of masonry is equal to the length of the building block.

The application of this invention in the field of construction during the laying of the external walls of civil and industrial buildings and structures and the construction of external bearing walls of buildings and structures with a height of up to three floors can improve the thermal properties of masonry from such building blocks by increasing the voidness of building blocks to increase the length of the heat path flow in the body of the block while using channels formed by voids as highways for laying communication networks.

Claims (14)

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 vertical rectangular shapes arranged in series along the spoon face in the through holes are made in the block, while the axis of each hole is perpendicular to the plane of the bed side, characterized in that the thickness of the wall separating the extreme through hole from the bonded edge, in the direction from one bonded edge to dr goy binder 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 masonry with stretcher building blocks. 2. The block according to claim 1, characterized in that the through holes in the building block are made identical in shape in plan. 3. The block according to claim 1, characterized in that the thickness of the seam is 8-15 mm. 4. A building block for spoon masonry, which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two vertical rectangular shapes are arranged in series along the spoon face in terms of through openings, while the longitudinal the axis of each hole is perpendicular to the plane of the bed face, characterized in that protrusions oriented along the height of these faces are made on the bonded faces at a distance from each other, the distance between which on one bonded edge is greater than the distance between the protrusions on the other bonded edge to accommodate the protrusions of one bonded edge between the protrusions of another bonded edge during spoon laying, the wall thickness separating the through hole from the bonded edge in the direction from one bonded edge to another the bonder face parallel to the surface of the spoon face is made smaller than the wall thickness in the same direction dividing the through holes between each other by the thickness of the seam laid between the bonded faces building blocks adjacent to the spoon masonry. 5. The block according to claim 4, characterized in that the through holes in the building block are made identical in shape in plan. 6. The block according to claim 4, characterized in that the thickness of the seam is 8-15 mm. 7. A building block for spoon masonry, which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two vertical rectangular shapes located in series along the spoon face are made in the block, with longitudinal holes the axis of each hole is perpendicular to the plane of the bed face, characterized in that protrusions oriented along the height of this face are made on one bonded face at a distance from each other, and on the other The protrusion of the bonded face is no more than the distance between the protrusions on the other bonded edge for placement between the protrusions during spoon laying, the thickness of the wall separating the extreme through hole from the bonded edge, in the direction from one bonded edge to another bonded edge parallel to the surface of the spoon faces made less than the wall thickness in the same direction, dividing through holes between them, by the thickness of the seam laid between the butt faces adjacent to the unit blocks. 8. The block according to claim 7, characterized in that the through holes in the building block are made identical in shape in plan. 9. The block according to claim 7, characterized in that the thickness of the seam is 8-15 mm. 10. The block according to claim 7, characterized in that the height of the protrusions on the bonded faces is made equal to or less than the thickness of the seam. 11. Spoon masonry, 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 vertical rectangular shapes located consecutively along the spoon face in plan through holes, while the longitudinal axis of each hole is perpendicular to the plane of the bed side, and in a row of building blocks are interconnected by seams between the butt faces, distinguishing the fact that in each building block the wall thickness separating the extreme through hole from the bonded edge, in the direction from one bonded edge to another bonded edge parallel to the surface of the spooned edge, is made smaller than the wall thickness in the same direction that separates the through holes, the thickness of the seam between the bonded faces adjacent to the masonry of the building blocks. 12. The masonry according to claim 11, characterized in that the thickness of the seam is 8-15 mm. 13. Spoon masonry, consisting of two-row placement of building blocks with upward voids, each of which is a rectangular parallelepiped in shape with spoon, poke and bed flat faces, while at least two vertical rectangular blocks are arranged in a block forms in terms of through holes, while the longitudinal axis of each hole is perpendicular to the plane of the bed side, and in a row building blocks are connected by seams between the butt faces, characterized in that in each building block, the wall thickness separating the extreme through hole from the bonded edge, in the direction from one bonded edge to another bonded edge parallel to the surface of the spooned edge, is made smaller than the wall thickness in the same direction that separates the through holes, the thickness of the seam between the bonded faces of the building blocks adjacent to the spoon masonry, in which at least part of the building blocks adjoin each other with spoon faces and the location and voids up perpendicularly building blocks adjacent to each other tychkovymi faces. 14. The masonry of claim 13, wherein the thickness of the seam is 8-15 mm.

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