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A platform for research: civil engineering, architecture and urbanism
Water area piling energy-saving robot for aquaculture
The invention discloses a water area piling energy-saving robot for aquaculture. The robot comprises a shell and a long shaft, the shell is a cylindrical shell, an impact unit and a motor are arrangedin the shell from top to bottom, a base of the impact unit is fixed in the shell, the impact end of the impact unit is connected with the motor, when the impact unit receives an excitation signal, the impact end can be away from the base at a preset acceleration, a sliding rail is further fixedly arranged on the inner side wall of the shell, a sliding block is integrally formed on the outer sideshell of the motor so that the motor can move along the sliding rail, and a through hole is formed in the bottom of the shell. One end of the long shaft is fixedly connected to a rotor of the motor, the other end of the long shaft penetrates through the through hole, a sealing structure is arranged at the through hole, and a paddle is arranged in the middle of the long shaft.
本发明公开了一种水产养殖用水域打桩节能机器人,所述机器人包括:壳体,所述壳体为圆柱壳体,所述壳体内自上而下分别设置有冲击单元、电机,所述冲击单元的基座固定在所述壳体内,所述冲击单元的冲击端与所述电机连接,所述冲击单元在收到激发信号时所述冲击端能够以预定的加速度远离所述基座,所述壳体内侧壁上还固定设置有滑轨,所述电机的外侧壳体一体成型设置有滑块,使得所述电机能够沿着所述滑轨移动,所述壳体的底部设置有通孔;长轴,所述长轴的一端固定连接在所述电机的转子上,所述长轴的另一端穿过所述通孔,所述通孔处设置有密封结构,所述长轴的中部设置有桨叶。
Water area piling energy-saving robot for aquaculture
The invention discloses a water area piling energy-saving robot for aquaculture. The robot comprises a shell and a long shaft, the shell is a cylindrical shell, an impact unit and a motor are arrangedin the shell from top to bottom, a base of the impact unit is fixed in the shell, the impact end of the impact unit is connected with the motor, when the impact unit receives an excitation signal, the impact end can be away from the base at a preset acceleration, a sliding rail is further fixedly arranged on the inner side wall of the shell, a sliding block is integrally formed on the outer sideshell of the motor so that the motor can move along the sliding rail, and a through hole is formed in the bottom of the shell. One end of the long shaft is fixedly connected to a rotor of the motor, the other end of the long shaft penetrates through the through hole, a sealing structure is arranged at the through hole, and a paddle is arranged in the middle of the long shaft.
本发明公开了一种水产养殖用水域打桩节能机器人,所述机器人包括:壳体,所述壳体为圆柱壳体,所述壳体内自上而下分别设置有冲击单元、电机,所述冲击单元的基座固定在所述壳体内,所述冲击单元的冲击端与所述电机连接,所述冲击单元在收到激发信号时所述冲击端能够以预定的加速度远离所述基座,所述壳体内侧壁上还固定设置有滑轨,所述电机的外侧壳体一体成型设置有滑块,使得所述电机能够沿着所述滑轨移动,所述壳体的底部设置有通孔;长轴,所述长轴的一端固定连接在所述电机的转子上,所述长轴的另一端穿过所述通孔,所述通孔处设置有密封结构,所述长轴的中部设置有桨叶。
Water area piling energy-saving robot for aquaculture
一种水产养殖用水域打桩节能机器人
KANG WENJING (author)
2021-03-16
Patent
Electronic Resource
Chinese
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