RU24692U1 - FACING BLOCK AND SUPPORTING WALL FROM FACING BLOCKS - Google Patents

Abstract

1. A facing block having obliquely and mutually parallel arranged upper and, at least part of its width, lower faces, as well as a front and rear face, preferably located mutually parallel, while on the back side in its upper part in the body of the block has a recess, the face of the base of which forms an acute angle with the back side of the block, and its other side makes a blunt or right angle with the upper face of the block, and a longitudinal groove is made in the body of the block from the side of the face of the base of the recess, which has at least three times its minimum width. 2. The facing block according to claim 1, in which 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 the plates forming it. The facing block according to claim 1 or 2, in which the width of the longitudinal groove exceeds the doubled thickness of the geogrid at the intersection of the axes of the plates forming it no more than by the thickness of the geogrid plate. Cladding block according to any one of claims 1 to 3, in which the longitudinal groove is made with broadening to its lower part, preferably towards the front face. The facing block according to any one of claims 1 to 4, in which the faces forming a recess in the body of the block are interconnected, and the longitudinal groove is made not higher than the place of conjugation. 6. Cladding block according to any one of claims 1 to 5, in which a longitudinally located recess is made in the area of the lower face in the form of a portion of the side surface of the cylinder or prism. 7. The facing block according to any one of claims 1 to 6, in which at least one through channel is made in its body along its longitudinal axis or parallel to its longitudinal axis for connecting the blocks

Description

MKI7 E02D 17/20 E 02D 29/02 B 02V 3/14

mtim nMft ..- d-. W h

jjl

J VTs 1111

2 about l-g

FACING BLOCK and SAVING WALL FROM FACING BLOCKS

The proposed technical solutions relate to the field of construction, namely to the field of road, slope and hydraulic works carried out both during the construction of new structures and during reconstruction of old ones.

A known cladding block, used mainly for the construction of retaining walls and made in the form of a prism with a beveled face having a L-shaped supporting surface, and forming when installed in the design position, a retaining wall with a slope towards the soil mass (SN No. 663437, 1987 .).

A facing block is known that is used to construct a retaining wall, on the side of the upper surface of which a longitudinal recess is formed to accommodate an anchor worn on a geogrid placed between the supporting surfaces of the blocks located on both sides of the longitudinal recess, and fixing it from displacement during exposure to the a mass of soil its free part (PCT WO 97/44533, 1997).

A facing block is known in which the geogrid located on the upper surface of the niche formed in it is fixed by vertically located anchors inserted into its slots closed along the contour, and the anchors are combined in sections with a step between the anchors equal to the step of the geogrid used, and the block itself is made of concrete and has a vertically located central channel for anchoring with another block and a recess from the back surface, reducing its weight while ensuring lateral stability (US No. 5540525, 1996).

The closest known block is a facing block, containing front and rear parallel faces and a L-shaped protrusion from the side of the upper surface, located in the counter cavity of the upstream block, while laying the block in a retaining wall on its upper surface, the protrusion of the geogrid, pressed by a key installed in the longitudinal slotted groove made on the side of the upper surface of the block, and additionally fixed by a comb located in the longitudinal recess between the slotted azim and L-shaped protrusion (US No. 5511910, 1996.).

A known design of a retaining wall with niches from the side facing the soil massif, in the longitudinal vertical grooves of the concrete sections of which there is a dowel pinching the geogrid that is laid with its free end (US No. 5028172, 1991).

The closest known one is the design of the retaining wall made of horizontally arranged upper and lower faces of the blocks with a segmental shape formed by an arcuate in cross section of the facade of the block and connected with it parallel to form

a through channel with transverse jumpers by the back of the block, from the side of the upper end of which a longitudinal groove is made with a bevel formed at an angle of 45 °, in which a geogrid is folded, folded in half with a U-shaped clamp installed between its layers, placed in the slots of the grid (US No. 5257880, 1993).

Known designs, despite a number of advantages, are quite complex in design and low-tech in manufacturing, and also require considerable laboriousness when performing installation works using them.

The objective of the proposed technical solutions is to increase the manufacturability of the manufacture of the block and wall using these blocks, reducing the complexity when performing installation work while ensuring their required quality.

This is achieved:

 in the facing block in that it has obliquely and mutually parallel arranged upper and at least parts of its width, lower faces, as well as the front and rear faces, preferably located mutually parallel, while on the back side in its upper of the part in the body of the block, a recess is made, the face of the base of which forms an acute angle with the back face of the block, and its other side makes a dull or right angle with the upper face of the block, and in the body of the block, on the side of the face of the base of the recess, a longitudinal mesh is made a groove whose depth is at least three times its minimum width. In addition, the width of the longitudinal groove, at least in its upper part, can be no less than the thickness of the geogrid at the intersection axes of the plates forming it. The width of the longitudinal groove may exceed twice the thickness of the geogrid at the intersection of the axes of the plates forming it no more than by the thickness of the geogrid plate. The longitudinal groove can be made with broadening to

its lower part, preferably towards the front face. And the faces forming a recess in the body of the block can be mated with each other, and the longitudinal groove is made no higher than the place of conjugation. In a portion of the lower face, a longitudinally located recess may be made in the shape of a portion of the lateral surface of the cylinder or prism. At least one through channel can be made in the body of the block along its longitudinal axis or parallel to its longitudinal axis for connecting the blocks to each other, and decorative cladding can be made from the side of the front face. The cladding block can be made by molding from a concrete mixture, and the decorative cladding is formed during molding simultaneously with the block or applied by additional molding from a concrete mixture of a different composition, preferably with at least one pigment. The face of the base of the recess made in the body of the block from the back side in its upper part forms an acute angle equal to 60 ° - 85 ° with the back face of the block.

 in the retaining wall of cladding blocks, in that at least several of the blocks described above are used in it, there are; their upper and at least parts of its width obliquely and mutually parallel, lower faces, as well as front and rear a face located preferably mutually in parallel, while a recess is made in the upper part of the block from the back side of the block, the base side of which forms an acute angle with the back side of the block, and its other face forms an obtuse or right angle with the upper face of the block, moreover a block groove is made on the side of the recess base side to accommodate the geogrid, a longitudinal groove with a depth of at least three times its minimum width, while the blocks are located one above the other or with masonry joints, while a geogrid is inserted into the longitudinal groove of at least a part of the blocks , the free end of which is located in an array of backfill soil.

As a geogrid, a geogrid made of polyethylene or polypropylene can be used, obtained from a perforated sheet of the specified material and stretched after heating to ensure ordering and orientation of high molecular weight chains to ensure that cells from 16 mm to 300 mm long are obtained in the finished geogrid. A geogrid can be inserted into a longitudinal groove without forming an inflection in it, or a woven geogrid of polymeric material inserted into a longitudinal groove with a double folded end can be used as a geogrid. Cladding blocks can be installed with the formation of a gap at the location between them of the geogrid, not exceeding at least a portion of the length of the block of its thickness.

The proposed technical solutions are illustrated by drawings, where:

- figure 1 presents a General view of the facing block in a preferred embodiment;

- figure 2 is the same, with design features of the individual elements of the facing block;

FIG. 3 schematically shows a retaining wall of cladding blocks in the embodiment of FIG. 1.

The facing unit 1 has an upper 2 and at least part of its width oblique and mutually parallel, lower 3 faces, as well as a front 4 and rear 5 face, preferably located mutually parallel from the back side 5 in its upper part in the body of block 1 is made a recess, the face 6 of the base of which forms an acute angle of 60 ° - 85 ° with the rear face 5 of the block, which eliminates damage at this point from the existing loads, and its other face 7 is an obtuse or right angle from the top 2 face of block 1. In the body of block 1 from the side face 6 of the base of the recess is made for

the placement of the geogrid 8 is a longitudinal groove 9, the depth of which is not less than three times its minimum width. The longitudinal groove 9 is made with a broadening 10 to its lower part in the direction of the front 4 faces, which provides an increase in the efficiency of jamming of the geogrid in it, for example, when foreign particles get in. Facets 6 and 7, forming a recess in the body of the block, as an option, can be mated with each other along a cylindrical surface 11. In this case, the longitudinal groove 9 is made no higher than the conjugation site. A longitudinally located recess 12 is made in the lower face portion in the shape of a portion of the lateral surface of the cylinder or prism. In the body of the block along its longitudinal axis or parallel to its longitudinal axis, at least one through channel 13 can be made for connecting a number of blocks 1 to each other. From the side of the upper face 2, a recess 14 can be made in the longitudinal direction, which provides a reduction in the mass of the block and, if necessary, the removal of groundwater. From the front of the 4 facets decorative lining is made.

When constructing a retaining wall from cladding blocks, at least several of the blocks 1 described above are used, while the blocks are placed one above the other or with a masonry joint. A geogrid is inserted into the longitudinal groove of at least part of the blocks, for example, “TENSAR (see the journal“ Spider and practice of transport construction JN23, 1999, P. Maryemaa, Reinforcement of soil structures and road pavements with TENSAR geogrids, p.23, 24). The free end of the geogrid is located in an array of backfill soil. The TENSAR geogrid is made of a perforated sheet of polyethylene or polypropylene stretched after heating to ensure ordering and orientation of high molecular weight chains to ensure that cells from 16 mm to 300 mm long, preferably up to 200 mm, are obtained in the finished geogrid. The geogrid is inserted into the longitudinal groove without the formation of its bend in

it or as a geogrid can be used non-flying geogrid, for example BONAR TF, made of a polymer material, which is inserted into the longitudinal groove with a double folded end. Facing blocks 1 can be installed with the formation of a gap at the location between them of the geogrid, not exceeding at least a portion of the length of the block of its thickness.

This embodiment of the cladding block with the above parameters and the retaining wall constructed from them ensures compliance with the specified construction rates while significantly reducing the complexity of the work by simplifying the design of the block and the technological operations for mounting the retaining wall.

Claims (15)

1. A facing block having obliquely and mutually parallel arranged upper and, at least part of its width, lower faces, as well as a front and rear face, preferably located mutually parallel, while on the back side in its upper part in the body of the block has a recess, the face of the base of which forms an acute angle with the back side of the block, and its other side makes a blunt or right angle with the upper face of the block, and a longitudinal groove is made in the body of the block from the side of the face of the base of the recess, which has at least three times its minimum width.  2. The facing block according to claim 1, in which 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 the plates forming it.  3. The facing block according to claim 1 or 2, in which the width of the longitudinal groove exceeds twice the thickness of the geogrid at the intersection of the axes of the plates forming it no more than by the thickness of the geogrid plate.  4. The facing block according to any one of claims 1 to 3, in which the longitudinal groove is made with broadening to its lower part, preferably towards the front face.  5. The facing block according to any one of claims 1 to 4, in which the faces forming a recess in the body of the block are interconnected, and the longitudinal groove is made not higher than the place of conjugation.  6. The facing block according to any one of claims 1 to 5, in which a longitudinally located recess is made in the area of the lower face in the form of a portion of the side surface of the cylinder or prism.  7. The facing block according to any one of claims 1 to 6, in which at least one through channel for connecting the blocks to each other is made in its body along its longitudinal axis or parallel to its longitudinal axis.  8. The facing block according to any one of claims 1 to 7, in which a decorative cladding is made from the side of the front face.  9. The cladding block of claim 8, in which the block is made by molding from a concrete mixture, and the decorative cladding is formed during molding simultaneously with the block or applied by additional molding from a concrete mixture of a different composition, preferably with at least one pigment. 10. The facing block according to claim 1, in which the face of the base of the recess made in the body of the block from the back side in its upper part forms an acute angle with the back face of the block equal to 60-85 ^o .  11. Retaining wall of cladding blocks, which used at least several blocks according to any one of claims 1 to 10, located one above the other or with dressing of masonry joints, while in the longitudinal groove of at least part of the blocks brought geogrid, the free end of which is located in an array of backfill soil.  12. The retaining wall of the cladding blocks according to claim 11, in which a geogrid of polyethylene or polypropylene is used as a geogrid, obtained from a perforated sheet of the specified material and stretched after heating to ensure ordering and orientation of high molecular weight chains to ensure that cells are obtained in the finished geogrid with a length from 16 to 300 mm.  13. The retaining wall of the cladding blocks according to item 12, in which the geogrid is inserted into the longitudinal groove without the formation of its bend in it.  14. The retaining wall of the cladding blocks according to claim 11, in which a woven geogrid of polymer material is used as a geogrid, inserted into the longitudinal groove with a double folded end. 15. The retaining wall of the cladding blocks according to any one of paragraphs.11-14, in which the blocks are installed with a gap in the location between them geogrid, not exceeding at least a portion of the length of the block of its thickness.