Flexible energy dissipation system
A flexible and energy-dissipating technology, applied in the direction of coastline protection, jetty, pier, etc., can solve the problems of damage and loss of protection function, and achieve the effect of maintaining stability and safety, reducing erosion force and destructiveness
Inactive Publication Date: 2013-10-30
彭大雄 +2
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[0002] As far as the existing coastal erosion protection methods are concerned, rigid structures are generally used, such as seawalls, jetty groups, bank revetments, offshore embankment groups, etc., to change the characteristics of the coastal wave, tide, and current systems to achieve However, such rigid structures are likely to have a negative impact on ecology and natural viewing, and they are often destroyed by large wind waves and typhoon surges, and lose their original protective functions; therefore In recent years, industry, government, and academia have invested a lot of resources to develop flexible methods, such as artificial submerged reefs, artificial headlands, fishtail breakwaters, artificial beach cultivation, sand-based beach construction, etc., hoping to improve coastal protection through flexible methods. Disadvantages of the Rigid Approach
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[0044] Below in conjunction with accompanying drawing and embodiment the present invention is described in detail:
[0045] The aforementioned and other technical contents, features and effects of the present invention will be clearly understood in the following detailed description of the four preferred embodiments with reference to the drawings.
[0046] Before presenting a detailed description, it is noted that in the following description, similar elements are denoted by the same reference numerals.
[0047] refer to figure 1 , 2 , which is the first preferred embodiment of the flexible energy dissipation system of the present invention, the flexible energy dissipation system is suitable for installation on a coast 200, and includes: three column groups 10, three inclined energy dissipation columns 20, and three sling units 30. Two first energy dissipation devices 40, two positioning devices 50, two second energy dissipation devices 60, two side ground pile devices 70, t...
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A flexible energy dissipation system comprises multiple upright groups, multiple inclined energy dissipation columns, multiple sling units and at least one first energy dissipation device. The upright groups are arranged along a transverse direction at intervals, each upright group is provided with a front upright and a rear upright, the inclined energy dissipation columns and the sling units are arranged between the front uprights and the rear uprights of the upright groups respectively, each inclined energy dissipation column is provided with a first spring unit connected with the corresponding front upright, and a column body connected with the first spring unit and extending towards the corresponding rear upright, each sling unit is connected with one inclined energy dissipation column correspondingly to enable the inclined energy dissipation column to be high-front low-rear inclined shaped, and each energy dissipation device is provided with an energy dissipation net unit arranged between two adjacent inclined energy dissipation columns along the transverse direction, and multiple second spring units connected between the energy dissipation net unit and the two adjacent inclined energy dissipation columns respectively.
Description
technical field [0001] The invention relates to a protection system, in particular to a flexible energy dissipation system which can prevent coasts from being eroded. Background technique [0002] As far as the existing coastal erosion protection methods are concerned, rigid structures are generally used, such as seawalls, jetty groups, bank revetments, offshore embankment groups, etc., to change the characteristics of the coastal wave, tide, and current systems to achieve However, such rigid structures are likely to have a negative impact on ecology and natural viewing, and they are often destroyed by large wind waves and typhoon surges, and lose their original protective functions; therefore In recent years, industry, government, and academia have invested a lot of resources to develop flexible methods, such as artificial submerged reefs, artificial headlands, fishtail breakwaters, artificial beach cultivation, sand-based beach construction, etc., hoping to improve coastal...
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IPC IPC(8): E02B3/06
Inventor 彭大雄彭光谦彭光聪
Owner 彭大雄