SU1172982A1 - Shore protection structure - Google Patents

Abstract

1. SECURITY FACILITY, including a hollow wall installed parallel to the bank, having a curved front face that is made with holes, characterized in that, in order to increase the effectiveness of the bank protection from erosion by holding plumbing material, it is provided with perpendicular walls and oriented in O O O O o o o o o n j-febA-; The K-rl I f II / vdl i I / h II side opposite to the coast is ledges with an inclined front face, the front and rear faces of the protrusions are made with holes, the rear face of the wall is also made with holes that exceed the area of the holes her faces oh face. 2. A construction according to claim 1, characterized in that the distance between the protrusions is 1.5-2 of their height. 3. The arrangement according to claim 1, wherein the distance between the front and rear face of the wall is 0.45-0.55 of its height. 4. A construction according to claim 1, characterized in that the wall is installed from the shore at a distance of 2.0-20 of its height. i, &: J

Description

The invention relates to hydraulic construction and is intended to protect the banks from erosion and accumulation of the land. The aim of the invention is to increase the effectiveness of bank protection against erosion by holding plumbing material. FIG. 1 shows a coastal protection structure, side view; in fig. 2 the same, top view; in fig. 3 shows section A-A in FIG. one; in fig. A - permission BB in FIG. 1. The shore protection structure consists of a hollow wall 1, installed parallel to the bank and having a curvilinear front face 2, which is made with holes 3. The rear edge 4 of wall 1 is also filled with holes 5. The coast protection structure is provided with protrusions 6 located perpendicularly wall 1 and facing away from the coast, the front 7 and rear 8 faces of the projections 6 are made with holes 9 and 10. The protrusion 6 are located at a distance of 1.5-2 from their height. Face 2 and rear 4 faces of the wall are separated from each other at a distance of 0.45-0.55 of its height and interconnected by jumpers 11. The shore protection structure is installed on bed 12, made of hardening material or underwater concrete and laid on the seabed 13 The bed 12 is anchored into the ground by its own 14. The bank of the industrial building is connected to the bed 12 by means of anchors 15. The wall is installed from the coast at a distance of 2.0–20 of its height. The area of the holes in the rear face 4 walls 1 to 8-15% pain in the area of the holes 3 of the front face 2 facing the sea. When a wave acts on the bank protection structure, water along with sediment of soil through holes 3 and 5 first penetrates into the space between faces 2 and 4, and then through holes 5 beyond edge 4. Here the water spreads, sediment deposits from it and it flows out 3 and 5 back to the sea. The new impact of the wave repeats the cycle again Bed 12, anchored into the ground with its 14 or anchors 15 and rigidly connected with the bank protection structure, does not allow it to overturn under the dynamic influence of the wave. Alluvium is covered by the fact that when a wave acts on the front face of the wall facing the sea, 1 part of the water together with suspended soil particles — sand, pebbles, etc. — penetrates through holes 3 and 5 in the wall. mi 2 and 4 and the space behind the shore protection structure. Due to the loss of water velocity of the flow sediment from it, and water through the holes 3 flows into the sea, and due to the smaller area of the holes in the curvilinear face 2, the leaching of the soil back is difficult. The space formed by the two protrusions 6 and the front face 2 of the wall 1 creates additional catching pockets, which increase the volume of the applied plastics material due to the damping of both direct and oblique waves. It is not rational to set the wall at a distance less than its height from the coast, since in this case the area is small, the wave does not reach the coast, and the discharge is uneven, since water does not always have time to flow through curvilinear face 2 facing the sea. When the distance between faces 2 and 4 of wall 1 is less than 0.45 of its height, due to the small volume of the chamber, water does not have time to penetrate through the holes in face 4, which is separated from the sea, and water will be ejected through its top. 4 will be quickly buried with soil and there will be no freezing between the coast and wall 1, i.e. it becomes a wave wall. When the distance between facets 2 and 4 of wall 1 is greater than 0.55 of its height, water manages to spread between facets 2 and 4 and slowly leaves through holes 3 in curvilinear face 2 of wall 1, which significantly weakens the wrap. If the distance between two nearby protrusions 5 is less than 1.5 heights, then with an oblique wave the protrusions 6 prevent water from penetrating evenly through the holes 3 in the curvilinear face 2. If this distance

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more than 2 heights of the projections 6, oblique waves are not suppressed.

For E (| x |) of the objective flush of the hole in the curvilinear face 2 facing the sea, they occupy 40-55% of its surface, and the height of the holes 3 is 1.7-2.5 times the thickness of face 2.

If the area of the holes 3 is less than 40%, then the wall performs the function of the wash-wash, because a small amount of water passes through face 2, and if their area is more than 55%, the soil sinks to the cut-off of the lower edge of the holes 3 and no further soil contamination occurs.

If the height of the holes is less than 1.7 times the thickness of the plates, then when water passes through the holes 3, about 824

water swirls into the holes x 3 and the water penetrates poorly.

If the height of the holes 3 is greater than the thickness of face 2 by more than 2.5 times, the washed-up soil is washed out and the efficiency of the foundation is reduced.

At the indicated ratios by the time of the next wave

the space between the two faces 2 and 4 of the wall 1 and the space behind it, by the time of the impact of the next wave, is free from water, which contributes to the retention of the smooth material.

The use of the proposed shore, protective structure provides effective protection of the shore from spreading due to the detention of plumbing material.

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Claims (4)

1. A WATERPROOF CONSTRUCTION, including a hollow wall installed parallel to the shore, having a curved front face, which is made with holes, characterized in that, in order to increase the effectiveness of shore protection from erosion by retaining the beach material, it is provided mounted perpendicular to the wall and oriented opposite to the banks are sided by protrusions having an inclined front face, while the front and rear faces of the protrusions are made with holes, the rear side of the wall is also made with holes, the area of which exceeds the area of the openings of its face. 2. The construction under item 1, characterized in that the distance between the protrusions is equal to 1.5-2 of their height. 3. The construction under item ^ characterized in that the distance between the front and rear faces of the wall is 0.45-0.55 of its height. 4. Construction on π. 1, characterized in that the wall is installed from the coast at a distance of 2.0-20 of its height. SU I