SU1101503A2 - Breakwater - Google Patents

Abstract

1. WAVEWAVE auth. St. No. 673689, characterized in that, in order to increase the efficiency of wave quenching. it is provided with triangle shaped teeth, attached to the front edges of the plates, perpendicular to their planes, the teeth being opposite each other in a checkerboard pattern, and the height of the teeth is equal to the distance between the plates on which they are installed. 2. A wave according to claim 1, characterized in that the distance between the plates is 1 / 30-1 / 6 of the length of the plate. 3.Volnol on PP. 1 and 2, characterized in that the length of the plates is 1.5-2.0 heights of the breakwater. (L ate about with

Description

The invention relates to hydraulic engineering, and more specifically to breakwaters, designed to protect against the waves (wind waves) of the port area, roadstead moorings, approaches to canals and locks, coastal areas of the sea, etc.

A breakwater is known, which includes plates placed one above the other and fastened together, the distance between which decreases in depth from top to bottom 1.

The disadvantage of this breakwater is that the energy is absorbed only by separating the free-flowing wave into separate layers by the horizontal plates, which are rectified, the passage between the plates.

The purpose of the invention is to increase the efficiency of wave quenching.

This goal is achieved by the fact that the breakwater is equipped with toothed strips with teeth, having the shape of a triangle, attached to the front edges of the plates, perpendicular to their planes, the teeth being opposite each other in chess order, and the height of the teeth is 1 / 4-1 (2) the distance between the plates on which they are installed.

The distance between the plates is 1 / 30-1 / 6 of the length of the plate, and the length of the plates is 1.5-2.0 the height of the breakwater.

The drawing shows breakwater, axonometric.

The breakwater contains supports 1 to which the plates 2 are attached. The distance between the plates decreases from top to bottom from 1/6 to 1/30 of the length of the plates 2. The length of the plates 2 is 1.5-2.0 the height of the breakwater, i.e. the distance nor from the bottom plate to the top.

Toothed edges of the plates 2 are attached toothed strips 3 with teeth having the shape of a triangle, the teeth being opposite each other in a shakhmatny order, and the height of the teeth is 1 / 4-1 / 2 the distance between the plates 2 on which they are installed.

The device works as follows.

The motion of the incident wave is a slowly varying unsteady flow of fluid. The phenomenon of hydraulic induction is known, according to which, in such a current, energy-intensive vortices of unsteady motion are induced (induced) in local resistances.

When a wave passes through rows of triangles of toothed bars 3, nonstationarity vortices are formed, the creation of which consumes a considerable part of the wave energy. Getting into the channels between the plates 2, these vortices are vigorously quenched, as a result of which the length of the breakwater plate 2 is significantly reduced and it may be sufficient to have their length equal to (1.5-2) times the height of the wave. In addition, the installation of the toothed front plates 3 makes it possible to increase the distance between the plates in depth from top to bottom, up to 1/6 - 1/30 of the plate length.

This dependence of the distance between

0 by plates from the depth due to the fact that at the surface of the water or closer to it as the wave moves, the gradients of the velocities of the interfaces formed on the edges of local resistances - teeth

The leading edge of the breakwater has a greater magnitude than at depth, and this leads to a more vigorous formation of nonstationarity vortices that require an increase in the distance between the plates, otherwise the waves will break or be reflected and the efficiency of the quenching process will decrease.

The increase in the distance between the plates in comparison with the prototype (where it varies from 1/15 to 1/50 of the plate length) is explained by the presence of toothed combs,

in which swirls of unsteady motion are induced. The height of the triangles in the toothed combs is chosen to be 1 / 2-1 / 4 the distance between the plates where they are installed. This size range is caused by the fact that the waves do not have a fixed height and direction of movement with respect to the breakwater plane (a pier with a dentate leading edge can effectively dampen the wave and the oblique approach of the wave to the breakwater). The most universal is the height of the triangle, equal to 1/3 of the distance between the plates. Such an implementation of the breakwater allows to increase the efficiency of wave quenching.

Claims (3)

1. WAVE by author. St. No. 673689, characterized in that, in order to increase the efficiency of wave damping, it is equipped with trims with teeth having the shape of a triangle, attached to the leading edges of the plates, perpendicular to their planes, the teeth being opposite to each other in a checkerboard pattern, and the height of the teeth is 1 / 4-1 / 2 of the distance between the plates on which they are installed. 2. The wave breaker in π. 1, characterized in that the distance between the plates is 1 / 30-1 / 6 of the length of the plate. 3. The breakwater according to paragraphs. 1 and 2, characterized in that the length of the plates is 1.5-2.0 the height of the breakwater. SU „, .1101503