A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Unmanned intelligent water surface garbage collection robot
The unmanned intelligent water surface garbage collection robot comprises a ship body, and a front conveying belt is arranged at the front position of the upper end of the ship body. The ship body can move in three modes of remote control, computer remote control and unmanned autonomous control, so that floating algae or other floating objects on the water surface can be cleaned, manual work can be replaced, the labor intensity is reduced, and the cleaning efficiency and the safety coefficient can be improved; the water entry angle of the front conveying belt can be controlled through the hydraulic rod, and floating algae or other floating objects on the water surface can be cleared away through the front conveying belt; water seepage holes are formed in the surfaces of the front conveying belt and the rear conveying belt, and through holes are formed in the surfaces of the baffles, so that salvaged garbage can be fully filtered, the load of the device is reduced, the garbage capacity of a cabin body is increased, and meanwhile, the garbage can be easily unloaded after being full of the garbage in cooperation with the rear conveying belt.
本发明公开了无人智能水面垃圾收集机器人,包括船体,所述船体的上端靠前的位置设置有前置传送带。本发明中的船体可以通过遥控控制、电脑远程控制和无人自主控制三种模式实现船体的移动,从而可以对水面的浮藻或者其他漂浮物进行清理,不仅可以代替人工,降低劳动轻度,还能提高清理效率以及安全系数;通过液压杆可以控制前置传送带的入水角度,有利于利用前置传送带清理水面的浮藻或者其他漂浮物;通过在前置传送带与后置传送带表面开设渗水孔,以及在挡板表面开设通孔,可以对打捞的垃圾进行充分的滤水,减少装置载重,增加舱体垃圾容量,同时配合后置传送带能够在垃圾装满后轻松卸载。
Unmanned intelligent water surface garbage collection robot
The unmanned intelligent water surface garbage collection robot comprises a ship body, and a front conveying belt is arranged at the front position of the upper end of the ship body. The ship body can move in three modes of remote control, computer remote control and unmanned autonomous control, so that floating algae or other floating objects on the water surface can be cleaned, manual work can be replaced, the labor intensity is reduced, and the cleaning efficiency and the safety coefficient can be improved; the water entry angle of the front conveying belt can be controlled through the hydraulic rod, and floating algae or other floating objects on the water surface can be cleared away through the front conveying belt; water seepage holes are formed in the surfaces of the front conveying belt and the rear conveying belt, and through holes are formed in the surfaces of the baffles, so that salvaged garbage can be fully filtered, the load of the device is reduced, the garbage capacity of a cabin body is increased, and meanwhile, the garbage can be easily unloaded after being full of the garbage in cooperation with the rear conveying belt.
本发明公开了无人智能水面垃圾收集机器人,包括船体,所述船体的上端靠前的位置设置有前置传送带。本发明中的船体可以通过遥控控制、电脑远程控制和无人自主控制三种模式实现船体的移动,从而可以对水面的浮藻或者其他漂浮物进行清理,不仅可以代替人工,降低劳动轻度,还能提高清理效率以及安全系数;通过液压杆可以控制前置传送带的入水角度,有利于利用前置传送带清理水面的浮藻或者其他漂浮物;通过在前置传送带与后置传送带表面开设渗水孔,以及在挡板表面开设通孔,可以对打捞的垃圾进行充分的滤水,减少装置载重,增加舱体垃圾容量,同时配合后置传送带能够在垃圾装满后轻松卸载。
Unmanned intelligent water surface garbage collection robot
无人智能水面垃圾收集机器人
TONG YINGZHE (author)
2022-04-15
Patent
Electronic Resource
Chinese
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