RU1312U1 - Shore protection structure - Google Patents

Abstract

A coastal protection structure, including wavebreak walls located in two tiers with the formation of a berm between them, covered with slabs, characterized in that the wavebreak walls in each tier are made of rigidly connected reinforced concrete massifs installed along the front of the structure along a broken line with the formation of wave-cutting ledges , the coating plates are interconnected and with arrays of wave-breaking walls, and along the front of the wave-breaking wall of the lower tier, vertical faces are buried into the ground sheet pile wall with a ribbed surface facing the sea.

Description

.. |. &: § 3Sziz: - :: .- K-baflBKe No. 1E r. 93-082541 / 15

Shore protection structure

The utility model relates to hydraulic structures and can be used to protect the sea coast from damage caused by wave effects.

There are many designs of shore protection structures intended for the perception of wave effects, damping wave energy and protecting the coastal massif of soil from destruction and creeping. In particular, a shore protection structure is known / cm. / I / p. 540, fig. UTSU..b /, including a massive wave-breaking wall supported by piles with a curvilinear face, a sheet pile grooved wall in the ground along the front of the structure and a protective stone berm in front of the wall.

The disadvantage of this structure is its high material consumption, due to the design and difficult working conditions. Moreover, the more difficult the natural conditions are at the construction site, the more massive the wave-breaking wall and the stone of the protective berm should be. The construction of such a design is impractical to erect with significant fluctuations in water level due to high material costs.

Known shore protection structure / cm, / I /, p. 560, Fig. ХХ1У.12.6 / - prototst / /, which can be used in case of large fluctuations in water level. This structure includes massive wave-breaking reinforced concrete walls located in the yes-tier with the formation of a berm between them. The berm is covered with reinforced concrete slabs. A protective stone berm is poured in front of the wave-breaking wall of the lower tier.

the possibility of undermining the base of the wave-breaking wall under intense wave action, since the stone skeleton poorly resists the wave action and itself quickly collapses

The problem solved by the authors of the claimed utility model is to create a new, more economical design of the shore protection structure for conditions of large fluctuations in the water level and more reliable than the known ones.

The problem is solved in that in a coastal protection structure, including wave breakers located in two tiers with the formation of a berm between them, covered with slabs, according to the claimed utility model, the wave breakers in each tier are made of hard-wired interconnected reinforced concrete massifs installed along the front structures along a broken line with the formation of wave-cutting ledges, coating plates are interconnected and with arrays of wave-breaking walls, and along the front of the wave-breaking wall of the lower tier, Nena recessed from the ground tongue vertical front wall with a smooth surface facing towards the open sea.

The shore protection structure with the indicated combination of essential features - elements is unknown to the authors of the claimed utility model, from which they conclude that its novelty criterion is in accordance.

According to the authors, the coastal protection of the proposed design solves the problem, since:

wave-breaking walls in the form of wave-cutting ledges in two tiers with a wide berm between the walls of the tiers effectively resist the wave action, providing a change in the direction of movement of partially reflected waves and damping of energy;

the baffle walls of both tiers and the berm cover plates provide sufficient resistance to the structure with a good slope stability with a good distribution over the slope area, and with a minimum weight and material consumption of the components;

the vertical front wall of the tongue is a fairly reliable means of protecting the base of the structure from the gust.

The above is confirmed by the practice of designing and erecting shore protection structures / cm. / I /, pp. 561-562 /, which may indicate the industrial applicability of the claimed utility model.

Figure 1 shows the shore protection structure / top view /,

in Fig. E is a cross-section along aa in Fig.1.

The coastal protection structure includes wave-breaking walls located in two tiers of reinforced concrete massifs 1 and 2, rigidly interconnected along the tiers, which are installed in plan along a broken line with the formation of wave-cutting ledges. Berm is made between the wave-breaking walls of the upper and lower tiers, on the surface of which there are laid cover plates 3, connected together and with massifs 1 and E in a single unit. This connection can be non-rigid, for example, see. On the front of the wave-breaking wall of the lower tier, a vertical front wall with a ribbed surface facing the sea is made of sheet pile 4 buried in the ground. Ribbing can be performed through the use of a profile tongue, for example, T-section / cm. Fig. E /. The tongue 4 is buried in the soil to a depth exceeding the erosion depth and ensuring the stability of the retaining structure. To increase the stability of the structure, the wave breaking walls can rest on piles 5 / cm. figure 2 /.

Bank protection works as follows. A wave approaching the shore first interacts with the massifs of the first wave-breaking wall of the lower tier. Partial blanking and wave reflection occurs here. Further, a wave of lower energy yie passes through the berm, where further energy is quenched), and interacts with arrays 2 of the wave-breaking wall of the upper tier. Here the final reflection and partial quenching of the wave energy occurs. Due to the fact that the walls in the plan are made along a broken line with the formation of waveguide ledges, the direction of movement of the reflected waves changes, interference occurs, which enhances the damping effect. The wave energy cancellation is facilitated by the ribbed surface of the front wall of the tongue 4. As a result of the complex movement of wave flows at the structure, the wave energy is phased out, which favorably affects the stability of the structure. Combining elements of the structure into a single whole contributes to increasing the stability of the structure to external influences: arrays of wave-breaking walls along the tiers are interconnected and, with the help of coating plates, between tiers. This increases the gravitational parameters of the structure with a good distribution of the weight of the structure over the area of the coastal slope protected from erosion.

The thicker water at the structure adversely affects the stability of the bottom at the father’s wall: a rush is possible. The vertical front wall of a sheet pile, hardened below the possible level of erosion, is a fairly reliable means of protecting the base of the structure. :

ДЗ (З2гУ / flow rates along it and protection of concrete from abrasive Sov. degree of reflection, which increases the action of nano drawn by the flows

4.IP. Afanasyev /

S2 D /.

Claims (1)

A coastal protection structure, including wavebreak walls located in two tiers with the formation of a berm between them, covered with slabs, characterized in that the wavebreak walls in each tier are made of rigidly connected reinforced concrete massifs installed along the front of the structure along a broken line with the formation of wave-cutting ledges , the coating plates are interconnected and with arrays of wave-breaking walls, and along the front of the wave-breaking wall of the lower tier, vertical faces are buried into the ground sheet pile wall with a ribbed surface facing the sea.