CN216839222U - Flexible energy dissipation anti-scouring device for offshore wind power single-pile foundation - Google Patents

Abstract

The utility model discloses an offshore wind-power single pile foundation flexible energy dissipation anti-scouring device, including laying the software row around the pile foundation, the software row is formed by connecting the dish type concrete block that flies that the row was erected to the row in the horizontal row, the lower part that flies the dish type concrete block is the round platform body, upper portion is the hemispheroid, adjacent two all connect through the connecting rope between the dish type concrete block the space department that the software row and pile foundation between is pressed and is filled with the sand bag. The utility model discloses a software row that connects rope and flying saucer type concrete block body to constitute can weaken the rivers energy, reduces the pile foundation velocity of flow around, effectively solves the problem that silt runs off because of washing away around the pile foundation. Compared with the traditional protection measures, the device has the advantages of strong applicability, wider application range to the surface of the sea bed, stronger capability of resisting wind waves and currents, more contribution to maintaining the stability of the device and wide application prospect.

Description

Flexible energy dissipation anti-scouring device for offshore wind power single-pile foundation

Technical Field

The utility model relates to an offshore wind power technical field, especially an offshore wind power single pile basis flexible energy dissipation anti-scouring device.

Background

The single pile foundation is one of the most widely used structural forms of offshore wind power. The ocean environment often has complicated ocean current effect, and the ocean current effect can corrode the seabed around the pile foundation because of the undercut that single pile structure separation produced, causes local scouring. The harm brought by local scouring can not be small, the sediment deposition around the single pile foundation is influenced, and the lateral bearing capacity and the seismic performance of the single pile structure can be reduced. Therefore, how to adopt proper protection measures and reduce local scouring around the single-pile foundation is an important problem to be considered in the design of the offshore wind power single-pile foundation.

Numerous experts and scholars carry out intensive research on anti-scouring measures of single-pile foundations, wherein the most common protective measures comprise three measures, namely stone throwing protection, sand quilt protection and solidified soil protection. Overall, each of these three protective measures has advantages, but there are problems of varying degrees. In order to make up for the defects of the existing protective measures, a novel protective measure needs to be provided, and the problem of single-pile foundation scouring is effectively solved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the technical problem that exists among the known art and provide an offshore wind power single pile basis flexible energy dissipation anti-scouring device, can show the energy that reduces pile foundation incident flow face, effectively alleviate the circumstances that silt erodees around the single pile and runs off.

The utility model discloses a solve the technical scheme that technical problem that exists among the well-known technique took and be: the flexible energy dissipation and anti-scouring device for the offshore wind power single pile foundation comprises a soft body row paved around a pile foundation, wherein the soft body row is formed by connecting flying saucer type concrete blocks which are vertically arranged in rows transversely, the lower part of each flying saucer type concrete block is a circular truncated cone, the upper part of each flying saucer type concrete block is a hemisphere, every two adjacent flying saucer type concrete blocks are connected through a connecting rope, and a sand bag is filled in a gap between each soft body row and the pile foundation.

Four connecting ropes which are uniformly distributed along the circumferential direction and extend along the radial direction are arranged around the flying saucer type concrete block.

The connecting rope is pre-buried in the flying saucer type concrete block body, is arranged at the joint of the circular truncated cone body and the hemispheroid, and transversely penetrates through the flying saucer type concrete block body.

The diameter of the bottom of each flying saucer type concrete block is 900mm, the height of each hemisphere is 200mm, and the distance between every two adjacent flying saucer type concrete blocks is 100-200 mm.

The utility model has the advantages and positive effects that: the soft body row that adopts connecting rope and flying saucer type concrete block to constitute can weaken water flow energy, reduces the pile foundation velocity of flow around, effectively solves the problem that silt runs off because of scouring around the pile foundation. Compared with the traditional protective measures, the connecting rope and the concrete block are poured and fixed, so that the construction process can be simplified, and the construction cost can be reduced. And the soft raft is prefabricated on land, is convenient to manufacture, and is beneficial to ensuring the quality and the efficiency. The device has strong applicability, wider application range to the surface of the sea bed, stronger capability of resisting wind waves and currents, more contribution to maintaining the stability of the device and wide application prospect.

Drawings

Fig. 1 is a schematic plan view of the present invention;

fig. 2 is a schematic view of a partial vertical structure of the present invention;

FIG. 3 is a schematic view of a partial structure of the soft mattress of the present invention;

FIG. 4 is a top view of the flying saucer type concrete block of the present invention;

fig. 5 is a longitudinal sectional view of fig. 4.

In the figure: 1-pile foundation; 2-sand bag; 3-flying saucer type concrete block; 4-connecting ropes.

Detailed Description

For further understanding of the contents, features and effects of the present invention, the following embodiments are exemplified and will be described in detail with reference to the accompanying drawings:

referring to fig. 1 to 5, the flexible energy dissipation and erosion prevention device for the offshore wind power single pile foundation comprises a soft body row which is laid around a pile foundation 1, wherein the soft body row is formed by connecting flying disc type concrete blocks 3 which are arranged in rows and columns, the lower parts of the flying disc type concrete blocks 3 are round platforms, the upper parts of the flying disc type concrete blocks 3 are hemispheres, two adjacent flying disc type concrete blocks 3 are connected through connecting ropes 4, and sand bags 2 are filled in gaps between the soft body row and the pile foundation 1.

In this embodiment, be equipped with four along circumference equipartition, along radial extension around flying saucer type concrete block 3 connect rope 4, it is pre-buried to connect rope 4 in flying saucer type concrete block 3, set up in the round platform body with the junction of hemispheroid, and cross flying saucer type concrete block 3. Simple structure and convenient manufacture. The connecting rope 3 is an anti-aging polypropylene rope with the diameter of 16 mm. The diameter of the bottom of the flying saucer type concrete block 3 is 900mm, the height of the hemisphere is 200mm, and the weight of the hemisphere is 95.6 kg. The distance between two adjacent flying saucer type concrete blocks is 100-200 mm.

The installation method of the device comprises the following steps: the concrete soft raft is prefabricated on land, transported to a fan site by sea, and then transferred to a spread ship by using a truss for hoisting. Before installation, firstly, broken stones are laid in an area where an anti-scouring device is arranged around a pile foundation to level the sea bottom surface, then a laying ship is positioned by a GPS, and then a soft body is sunk to a seabed fixed position; and finally, pressing a sand filling bag at a gap between the pile foundation and the anti-scouring device to avoid the sand from overflowing from the gap.

Above-mentioned scour prevention device is applicable to the protection on marine wind power single pile basis, is favorable to weakening the velocity of water of pile foundation incident flow face, effectively solves the problem that silt scour runs off around the pile foundation, and is wider to the application scope of sea bed face, and the ability of resisting stormy waves flows is stronger, more helps maintaining the stability of self.

Although the preferred embodiments of the present invention have been described with reference to the accompanying drawings, the present invention is not limited to the above-mentioned embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention, which is within the scope of the present invention.

Claims (4)

1. The flexible energy dissipation and anti-scouring device for the offshore wind power single pile foundation is characterized by comprising a soft body row paved around a pile foundation, wherein the soft body row is formed by connecting flying saucer type concrete blocks which are vertically arranged in rows, the lower parts of the flying saucer type concrete blocks are round platforms, the upper parts of the flying saucer type concrete blocks are hemispheres, two adjacent flying saucer type concrete blocks are connected through connecting ropes, and sand bags are filled in gaps between the soft body row and the pile foundation.

2. The flexible energy dissipation and anti-scouring device for the offshore wind power single-pile foundation according to claim 1, wherein four connecting ropes which are uniformly distributed along the circumferential direction and extend along the radial direction are arranged around the flying saucer type concrete block.

3. The flexible energy dissipation and anti-scouring device for the offshore wind power single-pile foundation according to claim 1, wherein the connecting rope is embedded in the flying saucer type concrete block, is arranged at the joint of the circular truncated cone and the hemispheroid, and transversely penetrates through the flying saucer type concrete block.

4. The flexible energy dissipation and erosion prevention device for the offshore wind power single pile foundation according to claim 1, wherein the diameter of the bottom of each flying saucer type concrete block is 900mm, the height of each hemisphere is 200mm, and the distance between every two adjacent flying saucer type concrete blocks is 100-200 mm.

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