RU2020200C1 - Shore protecting breakwater - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: breakwater is made up of immersed blocks with vertical ribs at side faces and beveled front face. The blocks are arranged in a row and spaced from one another. The operating principle of the breakwater is based on dissipation of kinetic energy under the action of forces of friction. Oncoming wave meets breakwater to break, whereby its energy is mainly dissipated at the front beveled front faces and in spaces between the blocks. The thus weakened wave carrying sand and gravel reaches the shore to spread on shore slope and lose remaining energy. The wave that lost its energy flows back to leave drifts. EFFECT: enhanced efficiency. 3 dwg

Description

 The invention relates to hydraulic engineering and is intended to protect the banks of water bodies from damaging wave effects.

 The purpose of the invention is improving work efficiency.

 In FIG. 1 shows a coastal breakwater, view from the sea; in FIG. 2 - the same, top view; in FIG. 3 is the same side view.

 The inventive shore protection breakwater consists of half-flooded blocks 1 installed in a row with gaps with vertical ribs 2 on the side faces. The manufacture of blocks 1 can be carried out, for example, from concrete in a metal formwork according to known technology using conventional equipment.

 Transportation of blocks 1 to the construction site of the shore-breaking wave breaker can be carried out by land or water.

 The construction of the inventive coastal breakwater can be carried out, for example, as follows.

 At a project-specific distance from shore 5, a floating crane is installed in a row on the underwater coastal slope 4 and with gaps 3.

 If necessary, the surface of the bottom of the reservoir at the installation sites of blocks 1 is leveled using technological equipment of a floating crane.

 The inventive coastal breakwater works as follows.

 Waves moving in the direction of 6 toward the shore 5 meet on their way with the shore protection breakwater and are destroyed. In this case, each wave is divided into two parts.

 One part of the wave rolls onto the front beveled faces of blocks 1 and, having extinguished its energy there, rolls back into the reservoir.

 The second part of the wave fills the gaps 3, encounters vertical edges 2 of the side faces of blocks 1 there, partially extinguishes its energy, modifies and continues its movement towards shore 5 in direction 7, taking sand and pebbles with it from the alongshore sediment flow moving in direction 8 .

 Having reached shore 5, the wave rolls onto the surface of the coastal slope 9 and, having extinguished the rest of its energy there, flows back into the reservoir, leaving behind sand and pebbles, from which the wave-extinguishing beach is formed.

 Forced transformation of storm waves transmitted through the claimed shore protection wave breaker will lead to a decrease in the height and energy of the waves, as well as cause refraction of oblique waves and a change in their period.

 As a result, the underwater coastal slope will be settled to an equilibrium state and the destruction of the coast from wave effects in the area protected by the claimed shore protection wave breaker will cease.

Claims (1)

 A BREAST-PROTECTING WAVE that includes semi-flooded blocks installed in a row with a beveled front face, characterized in that, in order to increase operational efficiency, the blocks are installed in a row with a gap relative to each other and have vertical ribs located on their side faces.

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