SU1130640A1 - Floating breakwater - Google Patents

Abstract

1. FLOATING WAVELET, having an annular or rectangular hollow duct attached to the float and behind the root flexible ties at the bottom, characterized in that, in order to increase energy absorption and reduce the load on the strong links, it is provided with an additional float. located between the floats, the typo wall of the duct being longer than the front one and lowering below it, and the root link attached to the typo wall has more tension than the root link attached to the front wall. 2. A breakwater, according to claim 1, characterized in that the front wall has a broken outline. :

Description

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The invention relates to hydraulic engineering construction, namely to floating breakwaters intended for damping wave energy.

Known floating breakwater with sloping walls, for the root at the bottom of the water area 1,

The disadvantage of this breakwater is its low energy-absorbing capacity due to the penetration of waves beyond the breakwater space due to the incantation of the walls.

A floating breakwater is known, having an annular or rectangular hollow duct attached to the float and to Lauren with flexible connections at the bottom 2.

Limestone breakwater is characterized by insufficient energy-absorbing ability and high tension in the crust.

The purpose of the invention is to increase energy absorption and reduce the load on the primary bonds.

The goal is achieved by the fact that a floating breakwater, having a ring-shaped or rectangular box, fixed on the float and behind the main flexible ties at the bottom, is provided with an additional float, and the box is located between the floats, with the front wall of the box being long in front and lowered below it, and the root link attached to the machine, has more tension than the root link attached to the front wall.

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In addition, the frontal wall has a broken outline.

FIG. 1 shows a floating breakwater, cross section; 2, the same, the variant with the frontal wall of the broken outline.

The floating breakwater has an annular hollow duct 1 installed between the floats 2. The length of the rear one) Q wall 3 of the duct 1 exceeds the length

front wall 4, and its lower edge is located at a depth that exceeds the depth of the lower edge of the front wall 4. 5 Anchor connection 5 connecting the rear wall 3 is complete with a tension exceeding the tension of connection 6, the junction. with the front wall 4.

The floating breakwater works as follows.

The wave, approaching the duct 1 and tilting it by rotating it counterclockwise, penetrates into its cavity, after which it flows out through the upper opening. The rotation of the box 1 and the oscillation of the water column in it (including the spout of water) contributes to the additional expenditure of wave energy, which leads to a decrease in the load on the core bonds 5 and 6 and to effective wave quenching.

The use of the proposed breakwater will significantly increase the energy enrichment of the waves by pouring water through the duct due to its high buoyancy, which will reduce the load on the connection.

Claims (2)

1. A FLOATING WAVE, having an annular or rectangular hollow box, mounted on a float and anchored by flexible links on a die, characterized in that, in order to increase energy suppression and reduce the load on the anchor links, it is equipped with an additional float, and the box is located between the floats, moreover, the rear wall of the box is made longer than the front and lowered below it, and the anchor connection attached to the rear wall has a greater tension than the anchor connection attached to the front wall. 2. A wave breaker, according to π. 1, characterized in that the front wall has a broken outline. 6 Phi & 1