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A platform for research: civil engineering, architecture and urbanism
Cleaning unmanned ship
A cleaning unmanned ship is characterized in that a filter plate is arranged at the bottom of a ship body, a negative pressure cabin is arranged above the filter plate, the negative pressure cabin is divided into an upper cabin body and a lower cabin body, the size of the upper cabin body is smaller than that of the lower cabin body, the upper cabin body is connected with a vacuum pump arranged in the ship body through a pipeline, and the filter plate is located below the water surface and used for filtering impurities and enabling floating oil to enter the negative pressure cabin; the vacuum pump is used for pumping gas in the negative pressure cabin, so that the liquid level in the negative pressure cabin rises, and floating oil enters the upper cabin body. When the cleaning unmanned ship sails to the floating oil recovery position, floating oil flows to the bottom of the ship body in the water flow direction and can enter the negative pressure cabin through the filter plate, meanwhile, the air pressure in the negative pressure cabin is controlled through the vacuum pump so that the liquid level in the negative pressure cabin can continuously rise, it is guaranteed that the upper layer of the liquid level is recovered floating oil, unmanned continuous floating oil recovery can be achieved, and the working efficiency is improved. The floating oil recovery efficiency is improved.
一种清洁无人船,采用在船体底部设有过滤板,过滤板上方设有负压舱,负压舱分为上舱体和下舱体,上舱体体积小于下舱体体积,上舱体与船体内部设置的真空泵通过管道连接,过滤板位于水面下方,用于过滤杂质,使浮油进入负压舱内,真空泵用于抽取负压舱内气体,使负压舱内液面上升,浮油进入上舱体中。清洁无人船航行到浮油回收位置时,浮油顺着水流方向流向船体底部,能够经过过滤板进入负压舱内,同时通过真空泵控制负压舱内气压可以使负压舱内液面持续上升,保证液面上层均为回收的浮油,能够实现无人化持续回收浮油,提高浮油回收效率。
Cleaning unmanned ship
A cleaning unmanned ship is characterized in that a filter plate is arranged at the bottom of a ship body, a negative pressure cabin is arranged above the filter plate, the negative pressure cabin is divided into an upper cabin body and a lower cabin body, the size of the upper cabin body is smaller than that of the lower cabin body, the upper cabin body is connected with a vacuum pump arranged in the ship body through a pipeline, and the filter plate is located below the water surface and used for filtering impurities and enabling floating oil to enter the negative pressure cabin; the vacuum pump is used for pumping gas in the negative pressure cabin, so that the liquid level in the negative pressure cabin rises, and floating oil enters the upper cabin body. When the cleaning unmanned ship sails to the floating oil recovery position, floating oil flows to the bottom of the ship body in the water flow direction and can enter the negative pressure cabin through the filter plate, meanwhile, the air pressure in the negative pressure cabin is controlled through the vacuum pump so that the liquid level in the negative pressure cabin can continuously rise, it is guaranteed that the upper layer of the liquid level is recovered floating oil, unmanned continuous floating oil recovery can be achieved, and the working efficiency is improved. The floating oil recovery efficiency is improved.
一种清洁无人船,采用在船体底部设有过滤板,过滤板上方设有负压舱,负压舱分为上舱体和下舱体,上舱体体积小于下舱体体积,上舱体与船体内部设置的真空泵通过管道连接,过滤板位于水面下方,用于过滤杂质,使浮油进入负压舱内,真空泵用于抽取负压舱内气体,使负压舱内液面上升,浮油进入上舱体中。清洁无人船航行到浮油回收位置时,浮油顺着水流方向流向船体底部,能够经过过滤板进入负压舱内,同时通过真空泵控制负压舱内气压可以使负压舱内液面持续上升,保证液面上层均为回收的浮油,能够实现无人化持续回收浮油,提高浮油回收效率。
Cleaning unmanned ship
清洁无人船
LI YAJUN (author) / HU JUN (author) / LIU LIANWEI (author) / GAN HUIMIN (author) / CHEN ZHENGHU (author) / JIA ZHONGHUI (author) / DING XIANZHONG (author) / CHENG HONGWEI (author) / WANG CHENJIE (author) / ZOU GAOQING (author)
2024-11-08
Patent
Electronic Resource
Chinese