RU2098548C1 - Breakwater - Google Patents

Abstract

FIELD: hydraulic structures, in particular, breakwaters. SUBSTANCE: breakwater has a horizontal plate rigidly secured on supports that are installed on the water basin bottom. The plate is positioned on the liquid surface and has a width equal to half the wave length. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to hydraulic structures, namely, breakwaters and can be used to protect sea coasts, ports and other structures from damage caused by wave effects.

 Known as a breakwater (FR, patent N1517957, class E 02 B 3/06, 1968), consisting of plates fixed to each other and to the bottom of a reservoir, located one above the other. The front parts of the plates are bent down and therefore the plates not only absorb, but reflect the wave. Also a disadvantage of this breakwater is that it is not economical due to the large consumption of material.

 Also known as a breakwater (SU, a.s. N 673689, class E 02 B 3/06, 1979), including horizontal plates located one above the other, fastened together by studs, ending with adjusting stops. A wave breaker may contain several sections interconnected by overlays. The distance between the plates decreases in depth from top to bottom from 1/15 to 1/60 of the length of the plate. The height of the breakwater is equal to the maximum height of the wave, and its length is two to three times its height.

 The disadvantage of this breakwater is that it is not effective and economically unprofitable due to the high consumption of bonded plates. The prototype of the invention is a breakwater, including a horizontal plate, rigidly mounted on supports installed at the bottom of the reservoir (see G. N. Smirnov and others. "Ports and port facilities", M. Stroyizdat, 1979, S. 298 299, Fig. XIV. 1g).

 The horizontal plate is buried under the level of the free surface of the reservoir to a depth equal to 2-2.5 wave heights, and can be made in the form of a horizontal lattice screen. When the ratio of the lattice width and wavelength equal to 0.4, the coefficient of wave attenuation by the lattice screen reaches 0.2.

 The disadvantage of the prototype is that it is ineffective, since the characteristic dimensions of the breakwater are obtained empirically without sufficient justification.

 The aim of the invention is to increase the efficiency of quenching by a wave breaker of wave energy and increase the reliability of coastal protection from the damaging effects of waves.

 This goal is achieved by the fact that in the breakwater, including a horizontal plate, rigidly mounted on supports installed on the bottom of the reservoir, said plate is placed on the surface of the liquid and is made with a width equal to half the wavelength.

 The invention is illustrated in the drawing, which shows a wave breaker in cross section.

 The wave breaker contains a horizontal plate 1 made of a width equal to half the length of the frontal incident surface of the wave and a length equal to the length of the shore 2 preserved from erosion by the waves. The plate 1 in the plan is installed parallel to the protected area of the shore 2. Moreover, the width of the plate 1 should be half the wavelength. This value is obtained theoretically and its optimality is confirmed by experimental studies.

 The wave breaker works as follows.

 The frontal wave incident on the shore meets a plate 1 horizontally located at the level of the free surface, rigidly fixed to the supports 3 installed on the bottom 4 of the reservoir, and there is a significant suppression of excess wave energy.

Claims (1)

 A wave breaker, including a horizontal plate, rigidly mounted on supports installed on the bottom of the reservoir, characterized in that the plate is placed on the surface of the liquid and is made equal to half the wavelength.