RU1823898C - Retaining wall - Google Patents

Abstract

SUMMARY OF THE INVENTION: The retaining wall includes a base and a front guard placed thereon. The front guard has a profiling cross section of half-placed blocks. Blocks are made with a larger and smaller base. The wall of the block is outlined on an ovoidal surface. The convexity of the wall faces the soil backfill. Through the wall, through vertical and horizontal drainage holes are made. The retaining wall is provided with a distribution beam. The beam has through vertical holes. The blocks are interconnected and with the distribution beam by rods. T-rods are passed through their vertical holes. The lower ends of the rods are anchored in the base. The upper ends of the rods are equipped with a tensioner. The base may be in the form of rocky soil or foundation. The foundation is made from the rear, expanding upward along the ovoidal surface. The bulge faces the backfill soil. 3 silt

Description

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The invention relates to construction, in particular to engineering holding and trapping structures, and more particularly, to a retaining wall structure.

The purpose of the invention is to increase the stability of the retaining wall.

Figure 1 shows a side view of the wall; figure 2 is a section aa in figure 1; in Fig.Z - wall facade.

The retaining wall contains blocks 1 with a larger 2 and less than 4 bases, and their staple-shaped wall 4 is outlined along the ovoid surface 5 and convex to the soil backfill 6, each block 1 containing through horizontal drainage holes 7 and cavities 8 in blocks 1 on the facade side, in addition, the retaining wall is provided with a distribution beam 9 located on the blocks 1 of the upper channel, having vertical holes 10, while the blocks 1 are combined with each other and with the distribution beam 9, passed through their vertical hardness 10 and in the cavity 8 of blocks 1 with strands 11, the lower ends of which are anchored at the base, and the upper ends are equipped with tensioning devices 12, the blocks 1 of the upper and lower layers face the large bases 2 up and down, respectively, and the beams 1 of adjacent Rus mated with the same base 2, 3, and the front fence of the blocks 1 is placed on the rocky foundation of the soil with anchor tie 11 in this soil or placed on the base in the form of a foundation 13, made from the rear side 14 expanding upward along the ovoidal surface surface 5 and convex to the backfill soil 6.

The retaining wall operates as follows.

When soil pressure is activated from the backfill side 5 onto the ovoidal surface 5 of the bracket-shaped wall 4 of blocks 1, the latter, perceiving this pressure, are in a stable state. The stability of the wall is due to a significant decrease in the forces of the active soil pressure due to the sawtooth shape in the section of the scalloped walls 4 of the blocks 1 along the height of the wall and their ovoid surface 5. The reduced active backfill pressure acting on the blocks 1 is additionally compensated by the holding moment of forces from the weight of the blocks 1 and the distribution beam 9. and also from the weighted dummy load from the compression of the blocks 1 by strands 11 passed through the holes 10 of the distribution beam 11 and in the cavity 8 of the vertical p blocks 1, connected at the same time by the lower parts to the foundation 13 OR anchored into the rocky soil of the base, as well as compensation by the holding moment from the loading of blocks 1, the backfill soil 6 and the passive rebate on the beams 1, located increasing the cross section from a smaller 3 basis. to large 2 in the direction from top to bottom. At the same time, tensile 11 pressed into the foundation 13 or rocky soil, as well as into the distribution beam 9, helps to obtain the desired compression of the blocks 1 due to the tensioning device 12. Compression of the blocks with the strands 11 also provides an increase in the stability of the wall when calculated for shear by increasing the frictional resistance forces of adjacent faces of blocks 1.

The presence of horizontal drainage holes 7 along the walls of 4 blocks 1 reduces the hydrostatic pressure, draining the slopes and increasing their natural stability. The rear side 14 of the foundation 13 is made identical to even surfaces of the blocks 1, i.e. expanding the top and along the ovoidal surface 5, convex to the backfill soil, b reduces the active pressure of the soil along the height of the foundation and the height of the wall as a whole. The distribution beam 9 into which the rods 11 are embedded ensures the distribution of the active soil pressure along the length of the structure, ensuring the uniform operation of all its (walls) elements. The presence of rocky soil at the base eliminates the need for a monolithic foundation 12, which reduces the cost of construction by saving concrete and excavating.

Using the proposed technical solution will avoid corrosion

flexible weights that are not in the ground compared to the prototype; replace flexible webs if necessary and monitor their condition at lower cost; installation of teas simplifies the assembly of the structure, reduces the metal consumption and their closure; increases the stability of the structure both by reducing the active pressure of the soil and hydrostatic forces and by increasing the holding forces of them; the decrease in the active pressure of the soil is due to both the slope of the back of the blocks with a sawtooth outline along the height of the structure, and a wavy outline in the section along the length of the wall due to the load coming to a large surface; a decrease in hydrostatic pressure provided by making through holes on the back of the blocks along the height and length of the wall structure; increase in holding forces not only by the weight of the blocks and the distribution plate, but also by additional fictitious loading due to compression of the blocks by prestressed flexible strands, as well as by the holding moment from loading the blocks with upstream soil within the length of the blocks in the cross section of the structure and passive repulse by odd Rus-blocks ;

the implementation of the foundations with an ovoid outline on the back reduces the active pressure along the height of the foundation; a distribution plate combines rows of blocks along the length of the wall, providing redistribution of uneven lateral pressure of the soil; to achieve improved shear stability of blocks not only by their weight; but also an increase in shear resistance due to squeezing of blocks and a given section of anchors.

Claims (1)

SUMMARY OF THE INVENTION A retaining wall including a base and a front guard placed thereon with a profiled cross-section of tiled blocks, characterized in that, in order to increase the stability of the retaining wall, each block is made with a larger and smaller base, and its wall outlined on an ovoidal surface, convex to soil backfill and made with through horizontal drainage and vertical holes, while the retaining wall is provided with blocks located on the upper channel distribution beam having through vertical holes, the blocks are combined with each other and with the distribution beam passed through their vertical holes with rods, the lower ends of which are anchored in the base, and the upper ones are equipped with a tensioning device, the blocks of the upper and lower layers are facing up and down, respectively, and the blocks of adjacent channels are interconnected by the same bases, and the front fence is placed on the base in the form of rocky soil or foundation made with the rear side expanding upward along the ovoid surface and convex to the backfill soil. fip2 FIG. 3