SU1423669A1 - Wave-attenuating arrangement - Google Patents

Abstract

The invention relates to hydro-technical construction. The purpose of the invention is to increase the efficiency of damping wave energy. The waveguide device is made in the form of a shield I and two cylindrical floats 2 and 3. Floats 2 and 3 have a different diameter. rigidly mounted on opposite sides of phita gaieneni I and in their form 4 and 5, equipped with axes of rotation 6 and 7 connected by cables 8 and 9 with the anchor system 10. Float 2 is fixed under HUITOM I, and float 3 is above nItom I. Under U) 3- the increase in the data of the approaching wave on the stitching I device turns around the axis 6 of the float 2, and the tansn part 1 and iioH. iaBOK 3, having a minimum margin of buoyancy, changes in the direction of the wave motion. The upper part of the nutTa I is turned in the opposite direction, which increases the speed of the transformantin gravity wave and the efficiency of energy generation. As the load from the wave at the top of P1it I increases, its angular rotational speed drops and with equal moments in) relative to axis 6 from the action of the gravity force of the wave crest on one side, the inertia force and buoyancy of the float 3 on the other, the device passes in an equilibrium position P. I Il. & cl

Description

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The invention relates to a hydraulic engineering construction, in particular, to devices used to absorb energy from a wave.

The purpose of the invention is to increase the efficiency of damping wave energy.

The drawing shows a cross-section of the proposed waveguide sh. His device in the initial position I and at the time of the final transformation of the wave crest before the collapse of II.

The device comprises a shield I rigidly fixed at an angle to the horizon between two cylindrical floats 2 and 3 along their forming 4 and 5. Floats 2 and 3 are mounted on rotation axes 6 and 7 and connected to a system of cables 8 and 9 fixed by an anchor system 10 at the bottom 11. The float 2 is made of a larger diameter and is located under the shield I. The float 3 is located above the shield 1 and has a diameter smaller than the float 2.

The device works as follows.

Under the influence of increasing pressure of a suitable wave on the shield 1, the device turns around the axis 6 of a cylindrical float 2, with the lower part of Pit 1 with respect to axis 6 and the float 3 having a minimum buoyancy margin moving in the direction of wave movement, and the upper part turning in the opposite direction which increases the rate of transformation of the ridge are full and the efficiency of its energy quenching.

As the wave load on the upper part of the shield increases, its angular rotation speed decreases. And when the moments of rotation are equal with respect to the axis 6 from the action of the force of gravity of the wave crest, on the one hand, the forces of inertia and buoyancy of the float 3, on the other hand, the device goes into an equilibrium position I. At this moment the wave crest collapses, after which The impulse of movement transmitted from the impact of the crest of the wave to the upper part of the device and the buoyancy force of the float 3 returns to the initial position 1, and having broken down the wave, rolling down the shield 1, extinguishes part of the energy of the newly appropriate wave. A cable 9 connecting the float 3 to the anchor system 10 prevents the wave-waving device from fully rotating around axis 6.

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Claims (1)

Invention Formula A wave suppressor device including an inclined seam, two cylindrical floats made of different diameters rigidly mounted on opposite sides of the shield, and an anchor system, characterized in that, in order to increase the wave energy efficiency, a larger diameter float is located under the shield, and a smaller diameter ) a - above the shield m, with the ycTanoB floats. ienbi is rotatable on the axes associated with the anchor system and attached to the shield along their generators.