PL205159B1 - Antistorm pile - Google Patents

Description

Description of the invention

The subject of the invention is a segment of a breakwater assembly, in which a plate element with overflow windows is used, allowing the construction of a segmented breakwater assembly in various arrangements depending on the needs.

Breakwaters are known in the form of typical piles driven into the seabed in a series configuration, parallel to the direction of wave rubbing. Such a system breaks the waves, suppressing their energy and lowering the destructive effect of the wave on the shore.

It is also known to use star blocks placed on the shore, especially near the dunes, which absorb the energy of the waves attacking during storms, protecting the dunes and banks from damage.

There are also known, for example, from the Polish patent specification No. 194978 systems in which three-dimensional reinforced concrete structures in the form of slabs are used, having the shape of the letter "A" in cross-section with the arms spaced apart in the lower part. They form a set fixed to the bottom of the sea. They are supposed to protect against undulations, especially deep waves.

Moreover, from the Japanese patent description JP 60233217, solutions are known, based on piles and plates with overflow windows, where the piles are driven along a structurally defined set and where the piles are driven into holes made in the slabs and then poured with concrete. This set can form a system of, for example, prisms, which are used to build piers and other marine structures on them.

The solution according to the invention is a segment of a breakwater assembly and is characterized in that it has a restraining element with a preferably rectangular cross-section provided with anchoring fins, and the wave damping elements are the arms connected to the core. The arms have a longitudinal section in the shape of preferably rectangular leading to a trapezoid. The rectangular part of the arm is connected to the core, and the trapezoidal part of each arm is provided with a yoke on the side of the smaller base of the trapezoid. One arm has an annular yoke and the other a spherical one, used to connect the individual segments to each other.

The arms are connected to the core by a T-joint.

By using the segments according to the invention, various breakwater systems can be built. The structure of the arms ensures considerable strength of the system, as they are resistant to bending loads arising from the rubbing of waves hitting the system. The use of yoke connections allows for slight bending of the segment arms, so that the loads, especially dynamic ones, are alleviated by the flexibility of this connection.

The invention will be presented in the example of its embodiments on the basis of the attached drawing, in which the individual figures show:

Fig. 1 is a top view of a single segment;

Figs. 2 and 3 - fragments of segments with different positions of the annular yoke element;

Fig. 4 is a top view of the set of two segments after connection;

Fig. 5 is a longitudinal view of Fig. 4;

Fig. 6 to Fig. 9 - different positions of a breakwater made of segments according to the invention.

As shown in Fig. 1, the breakwater assembly segment consists of a core 1 constructed of reinforced concrete or some other seawater-resistant material. The length of the core is selected depending on the water depth, distance from the shore, etc. The reinforced concrete arms 2 and 2 'are connected to the core 1. Both the core 1 and the arms 2 and 2 'are provided with lifting hooks 3 for ease of transport and assembly. The arms 2 and 2' have the cross-sections of a square, rectangle or other polygon transforming into a trapezoid. From the rectangular side, the arms 2 and 2 'are connected to the core 1. On the side of the smaller base of the trapezoidal section they are equipped with elements of the yoke (articulated) connection 4 and 5. The arm 2 has an annular yoke element 4 and the arm 2' spherical 5. The yoke connection 4 and 5 serve to connect the arms 2 and 2 'to each other as shown in Figs. 4 and 5. The arms 2 and 2' as shown in Fig. 5 are stacked or appear singly for a shallow depth. The arms 2 and 2 'are equipped with overflow windows 6. The cores 1, constituting piles for the foundation of the segments in the bottom of the water body, are equipped with anchoring fins 7, ensuring a secure fixing of the segment to the bottom of the water body. The arms 2 and 2 'are connected to the core 1 with a T-joint 8.

Fig. 6 shows an example of a breakwater with segments arranged in rows arranged in two lines parallel to the shore, partially overlapping each other.

PL 205 159 B1

In Fig. 7 a breakwater arrangement where each of the two lines parallel to the shore consists of interconnected segments parallel and perpendicular to the shore.

Fig. 8 is an arrangement where the lines as in Fig. 7 are perpendicular to the edge, and Fig. 9 where the segments are perpendicular to the edge in a pattern of elongated rectangles.

Claims (2)

1. Segment of the breakwater assembly consisting of a restraining element and wave damping elements with overflow windows, characterized in that the restraining element is a core (1) with a preferably rectangular cross-section, equipped with anchoring fins (7), and the wave-damping elements are arms (2, 2 ') connected to the core (1) and having a longitudinal section of preferably a rectangle tending to a trapezoid, where the rectangular part of the cross-section is connected to the core (1) and the trapezoidal part of each arm (2, 2') on the side of the smaller base of the cross-section it is equipped with a yoke piece (4, 5), one arm (2) having a ring yoke piece (4) and the other (2 ') a spherical piece (5) for flexible connection of individual breakwater segments. 2. Segment according to claim A device according to claim 1, characterized in that the arms (2, 2 ') are connected to the core (1) by a trapezoidal connection (8).