RU2330142C1 - Facing block-anchor for mortarless brickwork of back wall and back wall - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: facing block-anchor for mortarless brickwork of the back wall in the form of a parallelepiped which upper face of the front surface contains a land for levelling by the lower edge of the higher situated block-anchor during its installation at the back wall. The block-anchor is made with vertical through channels in it and with a lateral gutter at the side of the upper surface of the block-anchor for the situated in it manifold with gutters and cogs for fixation to it of a net for soil reinforcing from polymer material. The depth of the lateral gutter is equal or more than the thickness of the manifold with the net. In the block-anchor there are holes for installation of connecting pins into it, some part of them are made dumb for providing a support for the pins during installation of blockes at the back wall, and the other part is performed through and dislocated relative to the dumb ones towards the facia of the block-anchor, and at the back side of the block-anchor cambs are made complete with the block-anchor and located in cantilever fashion at the both side ends, partially divided from it from the outside and the inside formed in one single vertical plane by technological gutters, providing the possibility of controllable disassembling of the cambs. Situated inside the block-anchor technological gutter is formed from the side of the through channel of the block-anchor made as an open cavity from the side end of the block-anchor, which size in the direction of the block-anchor rear side exceeds the respective size of the cavity of the through channel situated between the specified through channels having open cavities from the side ends of the block-anchor. The side ends of the facia limiting the specified open cavities are made at their height with the bevel formed by a vertical plane passing through the edge of the guiding bevel and through the outer or inner technological gutter. The back wall from facing block-anchors is described in the same way.

EFFECT: creation of reliable connection of the elements of the back wall and reduction of labour costs and materials consumption of the structure.

5 cl, 5 dwg

Description

Technical solutions relate to the field of construction, namely, to the strengthening of dirt slopes during the construction of roads and the selection of sites for low-rise construction on the banks of a reservoir or on rough terrain.

A retaining wall is known, including blocks stacked on top of each other in horizontal rows and vertically united by vertical rods, each of which is made with widened front and tail and narrowed middle parts, and its upper and lower horizontal faces are made with holes symmetrical with respect to the longitudinal axis to establish lower and the upper ends of the rods, made in plan arched, and are removed from the longitudinal axis of the block and its rear face to a greater distance than the holes for the establishment of the upper ends s rods and the side faces of the front and rear parts of the block are chamfered towards the rear edge, wherein the tail part of the block is made smaller width than the front, and for the additional fastening of the wall blocks use in filling a reinforcing tie in the form of a geometric lattice. Typically, the screed is a flat sheet of flexible high-strength plastic or other material, such as metal, wood, hard rubber. The screed has oblong holes through which the upper ends of the rods are located, located above the upper face of the blocks. The rods fix the screed between adjacent rows of blocks. The screed is put in the backfill and helps to anchor the blocks. The number and position of screeds in the wall is taken depending on the state of the soil (SU No. 1809848 A3, 1993).

Known is a reinforcing wall of blocks made of blocks of different lengths, forming a step structure with step heights increasing towards the shore and containing a reinforcing mesh and stones, in which the blocks are made of reinforced concrete two-layer layers of rubble masonry or two-layer layers of concrete blocks with reinforcing mesh and connected between each other with high-strength mortar or concrete, are divided by structural-expansion joints into separate enlarged blocks interconnected by a grid, and from the front to them when a flexible single-layer reinforced concrete apron is laid, broken in plan into coarse-grained aggregated blocks, while reinforced concrete and but concrete blocks of different lengths forming a step structure are laid on top of each other with a shift of protruding stones in the upper and lower layers or a connection of protrusions and recesses in concrete blocks to enhance adhesion and friction of adjacent dry layers (RU No. 2215087 C2, 2003).

The closest known is the facing block for the construction of retaining walls, having obliquely and mutually parallel located upper and at least parts of its width, lower faces, as well as the front and rear faces, which are preferably mutually parallel, with the back the face in the upper part of the block has a recess, the base of which forms an acute angle with the back side of the block, and its other side makes a dull or right angle with the upper face of the block, moreover, in the block body the base of the recess is formed for placing the geogrid longitudinal groove, the depth of which is at least three times the minimum width. The width of the longitudinal groove, at least in its upper part, is not less than the thickness of the geogrid at the intersection of the axes of its plates or the width of the longitudinal groove exceeds the doubled thickness of the geogrid at the intersection of the axes of its plates by no more than the thickness of the geogrid plate (RU No. 24692 U1 , 2002).

Known block designs do not provide for the possibility of destruction of the retaining walls being built from them due to the action of forces directed towards the soil mass and caused by subsidence, for example, of bulk soil or its erosion. In this case, the geogrid carried away by the soil, anchored in the wall due to the construction of the blocks, randomly displaces the blocks, causing the destruction of the wall.

The present invention is aimed at providing reliable and rigid positioning of the connector with the attached mesh of polymer material in the anchor block and the masonry rows during wall installation; ensuring the work of the wall in compression that occurs when soil pressure; the construction of a wall of any shape in length; decrease in labor costs and material consumption of a design.

The technical task is to create a block anchor which, when installed in a retaining wall, would securely fix a mesh of polymer material placed in the ground in the masonry, and if it is necessary to repair the wall, for example, when an array of soil subsides behind it, it would allow to carry out repairs selectively, without dismantling the entire wall, which will significantly reduce the complexity and timing of the work. The grid fastening system used in the blocks ensures the reliability and durability of structures from such blocks, and also allows you to build walls of various configurations from them without the laborious processes of fitting blocks.

This is achieved by the fact that the facing block anchor for the non-solvent laying of the retaining wall has the shape of a parallelepiped, on the upper face of the front surface of which a guide chamfer is made to align with the lower edge of the block anchor above when installing it in the retaining wall, while the block anchor is made with through channels vertically located in it and with a longitudinal groove from the side of the upper surface of the block anchor for a comb placed in it with grooves and protrusions for attaching a set of soil reinforcing to it and of polymeric material, while the depth of the longitudinal groove is equal to or greater than the thickness of the comb with the mesh, in addition, holes in the block anchor are made for installing connecting pins in them, some of which (holes) are made blind to provide support for the pins when installing the blocks into the retaining wall, and the other part is made through and offset relative to the block anchor, which is deaf to the front side, and on the rear side of the block anchor are integral with the block anchor and are cantilevered on both sides at the ends of it side fists, partially separated from the outside and inside by external and internal technological grooves formed in the same vertical plane, providing the possibility of controlled fist removal, and the technological groove located inside the block anchor is formed from the side of the through channel of the block anchor, made in the form of an open end block anchor cavity, the value of which in the direction of the back side of the block anchor exceeds the corresponding value of the cavity of the through channel located between tymi through channels having open ends with the anchor block cavity, the front ends of the walls defining said open cavities are formed at their height with a facet formed by a vertical plane passing through the chamfer edge guide and through the outer or inner groove technology.

In the retaining wall using the facing block anchors described above, this is achieved by the fact that it contains block anchors stacked on one another, preferably with dressing, in the longitudinal grooves of which are combs with an attached mesh of polymeric material, while the mesh is cut from the side the edges fixed in the wall to a length of 100-150 mm from the transverse rib, and its other end horizontally led into the bulk soil array to a distance not less than the wall height and fixed with studs or pressed by the mass of soil, while the laying of the dies with the attached mesh is fixed above the stacked rows of block anchors, the through channels of the block anchors are filled with drainage material, and connecting pins are inserted into the holes, the diameter of which is at least 2 mm less than the diameter of the corresponding hole in the block anchor. In addition, the retaining wall may contain block anchors with one or two fists removed to enable the construction of the wall or its section in plan along an arc with a snug fit between the ends that form the block wall in this place. In this case, the pins can be made of polymer material solid or hollow, and gravel and / or crushed stone are used as drainage material.

Figure 1 shows the block anchor, a top view.

Figure 2 is a section along BB in figure 1, a view of the blind and through holes.

Figure 3 is a General view of the block anchor.

Figure 4 shows the element of the retaining wall with the location of the connecting elements of the comb (connector) with the attached mesh on the block anchor.

Figure 5 shows the location of the block anchors during the construction of the wall along an arc (radius).

The facing block anchor 1 (hereinafter referred to as the block) for the non-solvent masonry of the retaining wall is made in the shape of a parallelepiped, which ensures minimal gaps in the joints and eliminates the loosening of the block in the masonry. The block is made with voids 2 in a vertical plane. The stiffness of the block is created not only due to its static mass, but due to the effective rib system with softened (respectively reinforced) mating angles. The longitudinal groove 3 from the side of the upper surface of the block 1 forms a parallel ridge 4, which is a stop for the comb 5 with the mesh 6 made of polymer material attached to it and placed in the longitudinal groove 3. In this case, the depth of the groove is equal to or greater than the thickness of the comb 5 with the mesh 6 Through the grooves of the comb 5, the longitudinal elements of the mesh 6 are passed, and this serves to fix the mesh and secure it in the block. These elements are installed in the block in such a way that they can be removed from the wall structure assembled from these blocks without dismantling it as a whole. In addition, the presence of a comb allows you to reliably fix the grid, provide selective wall repair without dismantling it, and also change its configuration when laying the wall, both in plan and in height. Holes (through 7 and blind 8) are made in the body of the block anchor for installing pins 9 in them for fastening the blocks. Blind (impassable) holes support the pins when they are installed. The pins are made of polymeric material and can be monolithic or tubular. On the back side of the block anchor 1, on both sides there are monolithic fists 10. The fists 10 have technological grooves 11 and 12 for their controlled dismantling if necessary, for example, when erecting a wall of curved shape 13 (Fig. 5). An installation guide chamfer 14 is made on the upper face of the front surface of the block anchor 1. The technological groove 12 located inside the block anchor is formed from the side of the through channel of the block anchor, made in the form of a cavity 15 open from the end of the block anchor, the size of which in the direction of the back side the block anchor exceeds the corresponding value of the cavity 2 of the through channel located between said through channels having openings 15 open from the ends of the block anchor. The ends of the front wall bounding said from rytye cavity 15, formed in their height with a chamfer 16 formed by the vertical plane passing through the chamfer edge guide 14 and through the outer or inner recess 11 or the process 12.

The total height of the block anchor with the comb is about 200 mm, the length is about 500 mm, the width (depth) is about 270 mm, and the mass is about 37 kg. The block anchor is made of concrete with frost resistance F300, waterproof - W10, W12. It is allowed to reinforce the block with synthetic fiber, for example, Fibrin.

The retaining wall of the above-mentioned facing block anchors contains laid on each other, preferably with dressing, block anchors 1, in the longitudinal grooves of which are placed combs together with an attached mesh of polymer material. In this case, the mesh should be trimmed from the side of the edge fixed in the wall to a length of 100-150 mm from the transverse rib, so that when installed in the comb, the edges of the reinforcing mesh reach the front of the block, but do not protrude along the facade of the wall. This embodiment of the block anchor ensures its reliable operation under opposite or alternating loading from the side of the soil mass without destroying the retaining wall, and, if necessary, allows selective replacement of blocks without dismantling the entire wall. The other end of the reinforcing mesh is horizontally discharged into the soil array to a distance not less than the height of the wall and secured with studs or pressed by the weight of the soil. The position of the comb with the attached mesh is fixed by weight above the stacked row of block anchors. The voids of the block anchors as the wall is built are filled with drainage material (for example, large gravel with a size of 20-40 mm), and connecting pins are inserted into the holes, the diameter of which should be at least 2 mm less than the diameter of the hole in the block anchor. Blocks are laid with a gap with their sides and parallel to a straight or curved surface of the facade. Blocks are laid out with a transverse connection, the protrusion should be located opposite the rear surface of the protrusion of the lower row. The chamfer, located on the upper edge of the front surface, acts as a beacon for installing the next row. When constructing the wall along the radius, the fists of the block anchors are removed, and an angle α is formed between the front surfaces of the blocks.

The rational ergonomic design of the block anchor provides less weight and a larger surface area. The technological groove for installing the polymer mesh anchor ensures its reliable and tight positioning. The system of fastening blocks by installing polymer pins in the holes allows you to: ensure reliable, rigid positioning of the rows of masonry; withstand masonry loads from soil displacement due to gaps and intrinsic elastic deformations; produce masonry along the radius due to gaps when using pins of a smaller diameter. A chamfer on the upper edge makes it easy to mount blocks with a transverse connection with a high degree of accuracy of their installation.

Claims (5)

1. A facing block anchor for a non-solvent masonry of a retaining wall, having the shape of a parallelepiped, on the upper edge of the front surface of which a guide chamfer is made to align with the lower edge of the block anchor above when installing it in the retaining wall, while the block anchor is made with vertically through channels located in it and with a longitudinal groove from the side of the upper surface of the block anchor for the comb in it with grooves and protrusions for attaching to it a soil reinforcing mesh of polymer series, while the depth of the longitudinal groove is equal to or greater than the thickness of the comb with the mesh, in addition, holes in the block anchor are made for installing connecting pins in them, some of which are made blind to provide support for the pins when installing the blocks in the retaining wall, and the other the part is made through and offset relative to the block anchor, which is deaf to the front side, and on the rear side of the block anchor, are made integrally with the block anchor and the cams are cantilevered on both sides at the ends of its rear side, partially external and internal technological grooves formed from the inside and outside of it in the same vertical plane, which enable controlled dismantling of the fists, and the technological groove located inside the block anchor is formed from the side of the through channel of the block anchor, made in the form of a cavity open from the end of the block anchor , the magnitude of which in the direction of the back side of the block anchor exceeds the corresponding value of the cavity of the through channel located between said through channels, having E open at the ends of the anchor block cavity, the front ends of the walls defining said open cavities are formed at their height with a facet formed by a vertical plane passing through the chamfer edge guide and through the outer or inner groove technology. 2. The retaining wall of the facing block anchors according to claim 1, comprising block anchors laid on top of each other, preferably with dressing, in the longitudinal grooves of which are combs with an attached mesh of polymeric material, while the mesh is cut from the side to be fixed in the edge wall to a length of 100-150 mm from the transverse rib, and its other end is horizontally discharged into the bulk soil array to a distance not less than the height of the wall and secured with studs or pressed by the ground mass, while the position of the combs with the attached mesh is fixed above the stacked rows of block anchors, the through channels of the block anchors are filled with drainage material, and connecting pins are inserted into the holes, the diameter of which is at least 2 mm less than the diameter of the corresponding hole in the block anchor. 3. Retaining wall according to claim 2, characterized in that it contains block anchors with one or two fists removed to enable the construction of the wall or its section in plan along an arc with a snug fit between the ends that form the wall of blocks in this place. 4. Retaining wall according to claim 2, characterized in that the pins are made of polymer material solid or hollow. 5. Retaining wall according to claim 2, characterized in that gravel and / or crushed stone are used as the draining material.

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