SU1728336A1 - Coast-protecting structure - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to a hydraulic engineering construction, in particular, to a shore protective anti-roll and nanoforming facility. The shore protection structure consists of rectangular blocks rigidly fastened together in height and with the foundation. The blocks are made with bilateral grooves in the shape of a truncated pyramid, while the inner faces are made inclined. In one embodiment, the internal faces of the grooves are inclined towards each other and are symmetric about the longitudinal axis; in another embodiment, the internal edges of the grooves are parallel to each other and inclined towards the coast. 3 hp f-ly, 6 ill.

Description

The invention relates to hydraulic engineering construction, in particular, to engineering structures for the protection of the earth bed and slopes from mountainous, foothill, and ordinary rivers, to a shore-protective antiwash and nanoformed structure.

The purpose of the invention is to increase operational reliability.

FIG. 1 shows the layout plan of the structure; in fig. 2 - the same, option; in fig. 3 -. Section A-A in FIG. one; in fig. 4 shows a section BB in FIG. 2; in fig. 5 - section bb. in fig. one; in fig. 6 is a cross-section of the FIG. five.

The shore protective anti-sweep and nano-forming structure contains a coastal fence of rectangular blocks 1 rigidly fastened to each other in height and foundation on anchors 2, and blocks 1 are made with double-sided truncated pyramidal cavities 3 from both the water flow 4 and the coastal slope 5 at a distance from each other both in length and height

structures, in turn, in cross section along the height of the fence in section along the depressions 3, the structures form an I-beam along each of the blocks, while the inner faces 6 of the depressions 3 are inclined and arranged in one plane in blocks 1 along the height of the structure along each of its sides: according to one variant, the internal faces of the 6 depressions are inclined towards each other and symmetrically relative to the longitudinal axis, and according to another, the internal faces of the 6 depressions are made parallel to each other and inclined towards the coast of the slope 5. Besides the recess 3 from the aqueous stream 4 are capacitances uvelichivayuschimis adjustment facilities, and by the soil bank slope 5 - according to one embodiment enlarging capacitances, and on another with a decreasing capacitances. In turn, between depressions 3, vertical 7 and horizontal 8 trapezoidal stiffening ribs are made, increasing in their cross-section with increasing VJ CZ

with with with with about

neither the height of the structure in the case of inclination of the inner faces 6 of the recess 3 to each other and in the variant with parallel inner edges 6 with stiffening ribs increasing the cross section from the water flow 4 and decreasing the coastal slope 5 from the ground.

Pyramidal truncated depressions 3 along the length and height of the structure are made on axes of symmetry with a possible arrangement in a staggered order; moreover, the side adjacent faces 9 of the recesses 3 along the length of the structure are simultaneously lateral faces of vertical ledges (stiffeners) and the adjacent faces 10 of the depressions 3 along the height of the structure are at the same time edges of horizontal benches (stiffeners) 8.

Blocks 1 are mounted on a monolithic slab foundation 11 or block 12 on the dense foundations of the plates, on a solvent pile foundation 13 with weak bases: x, while the piles 12. are trapezoidal in shape in cross section and are turned with a narrow edge 14 toward the water side. flow 4. At the same time, the foundation plate 11 or the block plate 12, or the pile-foundation foundation 13 are deepened from the level of the alluvial material.

The coastal anti-erosion and nano-forming construction works as follows.

At the low water level 4, the bank protection structure is under active pressure of the coastal slope soil 5 and is in a steady state, as calculated for the tipping moment forces, taking into account the operation of the foundation plate 11 or block 12 on dense foundations, or pile foundation 12 on weak bases x, which take into account the passive resistance of the soil due to the trapezoidal section of the piles 13, which are turned by the narrow edge 14 towards the riverbed 5, without experiencing the erosion forces due to the small flow. With strong and prolonged precipitation, tornadoes, snow, and especially in the spring (flood) period, when the water level reaches the maximum values of the fence, made of blocks 1 with profiling-side faces by arranging two-sided truncated pyramidal depressions 3 as from the water flow 4 , and from the side of the coastal slope 5, the water flow 4 extinguishes part of its energy and discharges alluvial material 15 into the sediment due to the turbulent vortex flows formed in the truncated pyramid trenches 3, and the implementation of the depressions 3

an increasing capacity over the height of the structure increases the effect of quenching the forces of high-speed flow and sedimentation of the sedimentary material by compensating

they increase the flow rate from low water to flood water marks.

In turn, as the flow progresses along the structure, the water flow 4 due to the alternating rounding of the depressions 3

0 and vertical ledges 7 (stiffeners) significantly loses its kinetic energy of the flow and leads to a significant removal of nano-forming materials 5, forming an anti-washout barrier

5 along the structure. On the other hand, the force vector of the water flow 4, acting on the structure in the places of the depressions 3 at an angle to its length, was compensated by the resistance of the ground of the coastal slope 5 that was in engagement with the depressions 3 on the same side, thereby avoiding uneven power loads both in length and width of the structure.

When blocks with parallel inner edges 6 of the depressions 3 are executed, the onshore-off: spit 5 soil is compressed due to the displacement of the confining forces towards the slope 5 and the overall stability is increased. In addition, the weight of the backfill 5 of the profiled containers 3 on the side of the coastal slope and the weight of the aquatic environment (stream) 4 on the side of the river, affecting the lower side faces of the 10 recesses 3, contributes to increasing the stability of the wall ..

FORUMAWLAH AND ISLANDS

Claims (4)

1. A protective structure containing a shore fence, made in height from individual blocks installed on the foundation, while the blocks are rigidly fastened to each other and to the foundation, characterized in that, in order to increase operational reliability, the blocks are mounted vertically relative to the base, bonded to each other and to the foundation by means of anchors and have two opposite vertical lateral lateral lines facing the water area and to the coast. the shape of a truncated pyramid, directed by a smaller base to the vertical axis of the block, forming an I-beam outline of the block in the transverse 5 with inner edges of the recesses inclined to the vertical axis of the block, which are the smaller bases of the truncated pyramid. 2. The construction according to claim 1, wherein the blocks are made with internal faces of the recesses inclined one to the other. at the same time, the depth of the grooves facing the water area and the coast increases as the height of the structure increases. 3. The construction according to claim 1, which means that the blocks are made with the inner edges of the grooves parallel to one another and inclined towards the shore, while the depth of the grooves facing in the water area increases, and facing the shore, it decreases as the height of the structure increases. 4. The construction of paragraphs. 1-3, that is, with the fact that the foundation is made with pile-rostrum and trapezoidal piles in cross-section and with their narrow side facing the water area. 1 FIG 2 eight 10 9 / 3.6 / FIG. five