A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention relates to the technical field of dredging equipment, in particular to aquaculture dredging equipment which comprises a support, a first driving part, a housing and the like. A plurality of first driving pieces are fixedly connected to the bracket; the output ends of all the first driving pieces are jointly and fixedly connected with a housing. According to the device, after sludge is shielded and isolated through the housing, shellfishes located on the surface layer of the sludge are screened out through the screening rod and put into the shellfish storage chamber, so that the shellfishes are separated from the sludge and stored in the shellfish storage chamber, then the mud stirring rake reciprocates back and forth in the mud suction chamber, and the shellfishes are separated from the sludge through cooperation of the screening rod and the mud stirring plate. Sludge is gradually stirred and dispersed, in the process, the sludge in the sludge suction cavity is gradually mixed with water and becomes slurry, then the sludge pumping equipment communicated with the sludge pumping pipe is started, the sludge in the sludge suction cavity is pumped into the sludge pumping pipe from the telescopic pipe, and due to the fact that the sludge is stirred and dispersed into the slurry, the sludge pumping difficulty of the sludge pumping equipment is effectively reduced.
本发明涉及清淤设备技术领域,尤其涉及一种水产养殖用清淤设备,包括有支架、第一驱动件和罩壳等;支架上固接有若干个第一驱动件;所有第一驱动件输出端共同固接有罩壳。本发明实现了通过罩壳将淤泥遮盖隔离后,先通过筛杆将位于淤泥表层的贝类筛出,并将其入储贝腔室内,从而实现将贝类与淤泥分离并储存在储贝腔室内,然后使拨泥耙在吸泥腔室内进行前后往复移动,通过筛杆和拨泥板进行配合,实现将淤泥逐渐搅散,在此过程中,使吸泥腔室内的淤泥与水逐渐混合,变为泥浆状,然后启动与抽泥管连通的抽泥设备,将吸泥腔室内的淤泥从伸缩管抽入抽泥管内,由于淤泥被搅散为泥浆状,从而有效降低抽泥设备抽吸淤泥的难度。
The invention relates to the technical field of dredging equipment, in particular to aquaculture dredging equipment which comprises a support, a first driving part, a housing and the like. A plurality of first driving pieces are fixedly connected to the bracket; the output ends of all the first driving pieces are jointly and fixedly connected with a housing. According to the device, after sludge is shielded and isolated through the housing, shellfishes located on the surface layer of the sludge are screened out through the screening rod and put into the shellfish storage chamber, so that the shellfishes are separated from the sludge and stored in the shellfish storage chamber, then the mud stirring rake reciprocates back and forth in the mud suction chamber, and the shellfishes are separated from the sludge through cooperation of the screening rod and the mud stirring plate. Sludge is gradually stirred and dispersed, in the process, the sludge in the sludge suction cavity is gradually mixed with water and becomes slurry, then the sludge pumping equipment communicated with the sludge pumping pipe is started, the sludge in the sludge suction cavity is pumped into the sludge pumping pipe from the telescopic pipe, and due to the fact that the sludge is stirred and dispersed into the slurry, the sludge pumping difficulty of the sludge pumping equipment is effectively reduced.
本发明涉及清淤设备技术领域,尤其涉及一种水产养殖用清淤设备,包括有支架、第一驱动件和罩壳等;支架上固接有若干个第一驱动件;所有第一驱动件输出端共同固接有罩壳。本发明实现了通过罩壳将淤泥遮盖隔离后,先通过筛杆将位于淤泥表层的贝类筛出,并将其入储贝腔室内,从而实现将贝类与淤泥分离并储存在储贝腔室内,然后使拨泥耙在吸泥腔室内进行前后往复移动,通过筛杆和拨泥板进行配合,实现将淤泥逐渐搅散,在此过程中,使吸泥腔室内的淤泥与水逐渐混合,变为泥浆状,然后启动与抽泥管连通的抽泥设备,将吸泥腔室内的淤泥从伸缩管抽入抽泥管内,由于淤泥被搅散为泥浆状,从而有效降低抽泥设备抽吸淤泥的难度。
Underwater desilting device and desilting equipment using underwater desilting device
| European Patent Office | 2020