RU178886U1 - Underwater breakwater - Google Patents

Abstract

The utility model relates to coastal-type hydraulic structures and can be used to protect the coast from wave action. The device is made with an inclined face and contains a slab, the slab made of reinforced concrete, rigidly fixed to the inclined face at an angle of 30 to 40 degrees, directed toward the coastline, the upper edge of the slab is 1/6 of the total water level the height of the breakwater, and the upper part of the face of the breakwater is made vertical in place of the space formed between the plate and the face of the breakwater. The technical result consists in improving the device, providing increased durability and efficiency of the underwater breakwater. 1 ill.

Description

The technical solution relates to coastal-type hydraulic structures and can be used to protect the coast from wave action.

Known underwater breakwater (Aut. Sv-in SU No. 1618816), including made with an oblique facing the sea face and pivotally attached by a supporting element to the upper part of the front face through a horizontal axis and a plate between which and the front face is made damping chamber.

A disadvantage of the known device is the presence of a rotary mechanism in the breakwater, which reduces the durability of the work, as well as the limitation on the required wave action for the operation of this articulated shield.

The objective of the technical solution is to increase the durability and efficiency of the underwater breakwater.

The problem is solved in that the underwater breakwater is made with an inclined face and contains a plate, the plate made of reinforced concrete, rigidly fixed to the inclined face at an angle of 30 to 40 degrees, directed towards the coastline, the upper edge of the plate is located below the water level 1/6 of the total height of the breakwater, and the upper part of the face of the breakwater is made vertical in place of the space formed between the plate and the face of the breakwater.

Common features with the prototype are:

the underwater breakwater is made with an inclined face

contains a stove.

Distinctive features of a technical solution are:

the plate is made of reinforced concrete, is rigidly fixed to an inclined face at an angle of 30 to 40 degrees, directed towards the coastline,

the upper edge of the plate is located 1/6 of the total height of the breakwater below the water level,

the upper part of the face of the breakwater is vertical in place of the space formed between the plate and the face of the breakwater.

The combination of essential features provides increased durability and efficiency of the underwater breakwater.

In FIG. 1 shows an underwater breakwater.

The underwater breakwater 1 is made of reinforced concrete with a face face 2 inclined towards the sea and equipped with a reinforced concrete slab 3 fixed at an angle of 30 to 40 degrees with the face face 2, the face face 2 is made vertical in the upper part 4 of the break wave 1 opposite the hole formed between the plate 3 and front face 2 of the breakwater 1.

The wave breaker works as follows. When approaching the storm wave 1 of the storm wave along its oblique face 2, there is a flow of sea water 5 directed upward, which, falling into the space formed by the plane of the reinforced concrete slab 3 and the surface of the face 2, due to the formed angle of inclination between them, there is an increase the speed of movement of this stream, which, when leaving the upper hole and hitting this stream on the vertical part of the wave breaker, forms a stream opposite the direction of the storm wave, which extinguishes g stream.

Example. The presence of a reinforced concrete slab ensures the durability of the device, since sea water does not come into contact with iron. The reinforced concrete slab is located at an angle with the front face 2 from 30 to 40 degrees, due to the need to increase the speed of the water flow passing in the space between the reinforced concrete slab and the front side of the wave breaker, and provides high speed with a stream of water laid on the reinforced concrete slab. Thus, a large kinetic energy of the “lower” flow and its turn due to impact on the vertical part of the breakwater for damping the wave directed towards the shore are provided. An increase in the angle leads to an increase in pressure losses on the reinforced concrete slab in comparison with the “upper” flooring flow, which will not allow the organization of wave damping. The upper edge of the plate is located below the water level 1/6 of the total height of the breakwater. The installation depth is associated with the suppression of the wave in the flooded mode, that is, the wave does not go into the atmosphere, which provides the greatest efficiency, since there is an organization of the oncoming movement of water flows.

The technical solution provides an increase in the efficiency of coastline protection due to the separation of wave flows with the redirection of one of them.

Claims (1)

The underwater breakwater is made with an inclined face and contains a plate, characterized in that the plate is made of reinforced concrete, is rigidly fixed to the inclined face at an angle to the face from 30 to 40 degrees, while the upper edge of the plate is located 1/6 below the water level part of the total height of the breakwater, and the upper part of the face of the breakwater is vertical in place of the space formed between the plate and the face of the breakwater.

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