A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Novel net cage type floating breakwater
The invention provides a novel net cage type floating breakwater which comprises an anchorage system, a frame structure and an elastic component, the anchorage system comprises an anchorage component and an anchor chain, the frame structure is formed by an upper horizontal frame body and a lower supporting column body, one side of the anchor chain is connected with the anchorage component, and the other side of the anchor chain is connected with the upper horizontal frame body through the elastic component. The upper horizontal frame body is a breakwater row formed by connecting a plurality of octagonal planes, and a net-shaped fence is arranged on the periphery of the lower supporting column body. The bottom of the net-shaped fence is connected with a fishing net to form a breeding fishing net box. The invention has the beneficial effects that the frame structure is utilized to provide buoyancy, and an independent buoyancy unit is not arranged, so that the stress area can be effectively reduced, and the structure stress is reduced; wave energy can be effectively consumed through the energy dissipation net, propagation of the wave energy is disturbed, and the purpose of reducing the wave height in the harbor is achieved; fishing nets for cage culture are arranged at the bottom and on the periphery of the floating breakwater, the aquaculture function can be achieved at the same time, and the floating breakwater can generate direct economic benefits.
本发明提供一种新型网箱式浮防波堤,包括:锚碇系统、框架结构、弹性构件,锚碇系统包括锚碇构件、锚链,框架结构由上部水平框体和下部支撑柱体形成,锚链一边连接锚碇构件,另一边通过弹性构件与上部水平框体连接,上部水平框体为若干个八边形平面连接成防波堤排,下部支撑柱体外周设有网状围挡。网状围挡的底部连接有渔网形成养殖渔网箱。本发明的有益效果是:利用框架结构本身提供浮力,不设置单独的浮力单元,能够有效的减少受力面积,降低结构受力;通过消能网能够有效的消耗波浪能量,干扰波浪能量的传播,达到降低港内波高的目的;浮防波堤底部及四周设置网箱养殖的渔网,可同时兼顾水产养殖功能,使浮防波堤产生直接经济效益。
Novel net cage type floating breakwater
The invention provides a novel net cage type floating breakwater which comprises an anchorage system, a frame structure and an elastic component, the anchorage system comprises an anchorage component and an anchor chain, the frame structure is formed by an upper horizontal frame body and a lower supporting column body, one side of the anchor chain is connected with the anchorage component, and the other side of the anchor chain is connected with the upper horizontal frame body through the elastic component. The upper horizontal frame body is a breakwater row formed by connecting a plurality of octagonal planes, and a net-shaped fence is arranged on the periphery of the lower supporting column body. The bottom of the net-shaped fence is connected with a fishing net to form a breeding fishing net box. The invention has the beneficial effects that the frame structure is utilized to provide buoyancy, and an independent buoyancy unit is not arranged, so that the stress area can be effectively reduced, and the structure stress is reduced; wave energy can be effectively consumed through the energy dissipation net, propagation of the wave energy is disturbed, and the purpose of reducing the wave height in the harbor is achieved; fishing nets for cage culture are arranged at the bottom and on the periphery of the floating breakwater, the aquaculture function can be achieved at the same time, and the floating breakwater can generate direct economic benefits.
本发明提供一种新型网箱式浮防波堤,包括:锚碇系统、框架结构、弹性构件,锚碇系统包括锚碇构件、锚链,框架结构由上部水平框体和下部支撑柱体形成,锚链一边连接锚碇构件,另一边通过弹性构件与上部水平框体连接,上部水平框体为若干个八边形平面连接成防波堤排,下部支撑柱体外周设有网状围挡。网状围挡的底部连接有渔网形成养殖渔网箱。本发明的有益效果是:利用框架结构本身提供浮力,不设置单独的浮力单元,能够有效的减少受力面积,降低结构受力;通过消能网能够有效的消耗波浪能量,干扰波浪能量的传播,达到降低港内波高的目的;浮防波堤底部及四周设置网箱养殖的渔网,可同时兼顾水产养殖功能,使浮防波堤产生直接经济效益。
Novel net cage type floating breakwater
一种新型网箱式浮防波堤
LI CHAO (author) / WANG ZHIYU (author) / WU BO (author) / LIU HONGYU (author) / WANG JING (author) / LI SIWEI (author) / WANG LIFANG (author)
2022-04-15
Patent
Electronic Resource
Chinese
IPC:
E02B
HYDRAULIC ENGINEERING
,
Wasserbau
Performance of Cage Floating Breakwater
| British Library Online Contents | 1997
Performance of Cage Floating Breakwater
| Online Contents | 1997
Dynamics of Cage Floating Breakwater
| Online Contents | 2005