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A series of anti-wave design for seaports or harbours

A technology that resists wind, waves and seaports. It is used in coastline protection, jetty, pier, etc., and can solve problems such as loss of ships and other equipment and personnel.

Inactive Publication Date: 2011-05-04
赵彦杰
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Every time there is a big storm, especially a strong typhoon, it will cause huge losses to ships and other equipment and personnel

Method used

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  • A series of anti-wave design for seaports or harbours
  • A series of anti-wave design for seaports or harbours
  • A series of anti-wave design for seaports or harbours

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] Embodiment one, see figure 1 . Build a wave-proof wall at the appropriate position of the harbor and harbor. Surround the ports and harbors where ships are moored. The anti-wave wall 1 has reinforced supporting structures 2 in two directions perpendicular to the central axis of the wall. In order to resist strong wind and waves, it will not be pushed down by strong wind and waves. The breakwater wall reserves one export 3 and one import 3 of the ship. Perhaps export 3, import 3 are all on a hole 3, and hole 3 stays wider. Secondly, when a big storm comes, after the ship docks, the outlet 3 and the inlet 3 of the wave wall are sealed with wave-dissipating facilities. The anti-wave wall and wave-dissipating facilities can make the momentum and energy of wind and waves disappear. However, water can be freely passed through the wave-dissipating facilities. The first type of wave-dissipating facility is to overlap multiple layers of fine-mesh nets to make wave-dissipa...

Embodiment 2

[0018] In the second embodiment, on the basis of the first embodiment, the overlapping multi-layer fine mesh is replaced with a soft single-layer mesh object with the same function. The thickness of the mesh object can be about one centimeter or more than one centimeter. This way the energy of the water can also be digested as it passes through it. This wave dissipating facility can be installed about two.

Embodiment 3

[0019] Embodiment 3, on the basis of Embodiment 1, the overlapping multi-layer fine meshes are replaced with hard boards that are pressed one by one. The hard board is that the bottom of the last row of hard boards is pressed on the top of the next row of hard boards. In this way, water can pass freely, and the energy of wind and waves can be digested. Only one piece of this wave-dissipating facility is installed.

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Abstract

The invention provides a series of anti-wave device for a seaport or a harbour. Firstly, an anti-wave wall is constructed at positions of the seaport or the harbour, the anti-wave wall encloses the seaport or the harbour where ships are anchored. Reinforcing and supporting structures are provided on the anti-wave along two directions perpendicular to the central axis of the wall to resist strong stormy waves and allow the anti-wall not to be pushed down by the strong stormy waves. One outlet and one inlet for ships passing through are provided on the anti-wave wall, or, one opening is provided on the anti-wave wall and is taking the roles of the outlet and the inlet, width of the opening needs to be wider. Secondly, when a strong stormy wave is coming and ships are anchored, the outlet and inlet of the anti-wave wall are blocked by wave-breaking facilities. The wave-breaking facility is composed of a plurality of overlapped fine-mesh nets. The width of the wave-breaking facility is wider than the outlet and inlet of the anti-wave wall, when the tide falls, the bottom edge of the wave-breaking facility may be about 20 meters below the water surface, when the tide rises, the top edge of the wave-breaking facility may be about 10 meters above the water surface. Such anti-wave wall and wave-breaking facility can effectively break the impulsive force and energy of stormy waves. Certain facilities need to be constructed outside the anti-wave wall, which allows ships arriving late to avoid risk. All the facilities which are contacting with seawater are required to be able to resist seawater corrosion.

Description

Technical field [0001] The invention relates to a series of wind and wave-resistant designs for harbors and bays. Background technique [0002] At present, general seaports and harbors lack serious measures to resist wind and waves. Whenever there is a big storm, especially a strong typhoon, it will cause huge losses of equipment and personnel such as ships. Contents of the invention [0003] In order to strengthen the anti-wind and wave measures of seaports and harbors, the invention provides a series of anti-wind and wave designs for seaports and harbors. This series of seaports and harbors are designed to resist wind and waves, which can effectively resist strong winds, waves and typhoons. It can reduce the loss of ships and personnel in seaports and harbors. [0004] The technical scheme provided by the invention is: firstly, a wave-proof wall is constructed at a suitable position in a harbor or a harbor. Surround the ports and harbors where ships are moored. The ...

Claims

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Application Information

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IPC IPC(8): E02B3/06
Inventor 赵彦杰
Owner 赵彦杰
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