A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Suction shield head for seabed sand suction operation
The invention discloses a suction shield head for the seabed sand suction operation. The suction shield head comprises a sand bin. The upper end is in a trapezoid shape. A water inlet is welded at the front end of the sand bin and formed by two round tubes, and the square structure in the middle of the water inlet is formed into a sand pumping port. A tooth-shaped structure is arranged on the upper portion of the rear end of the sand bin, and water outlets are formed in gaps among the tooth-shaped structure, zigzag structures are arranged at the left and right ends of the sand bin, and gaps formed among the zigzag structures are water outlets. Grooves isolated by triangular plates are formed in the upper end of the sand bin close to the rear end to be formed into sand suction ports, and water outlets are welded on the portion at the upper end of the sand bin close to the front end. When the suction shield head operates, the tooth-shaped and zigzag structures are in contact with the operation faces, the round-tube structures are pulled by a ship to advance, high-pressure water flows in through the water inlet and sprayed through the water outlets, sand is raised by the sprayed high-pressure water, the raised sand is suctioned from sand suction ports, and water and sand mixtures are pumped out through the sand pumping port.
Suction shield head for seabed sand suction operation
The invention discloses a suction shield head for the seabed sand suction operation. The suction shield head comprises a sand bin. The upper end is in a trapezoid shape. A water inlet is welded at the front end of the sand bin and formed by two round tubes, and the square structure in the middle of the water inlet is formed into a sand pumping port. A tooth-shaped structure is arranged on the upper portion of the rear end of the sand bin, and water outlets are formed in gaps among the tooth-shaped structure, zigzag structures are arranged at the left and right ends of the sand bin, and gaps formed among the zigzag structures are water outlets. Grooves isolated by triangular plates are formed in the upper end of the sand bin close to the rear end to be formed into sand suction ports, and water outlets are welded on the portion at the upper end of the sand bin close to the front end. When the suction shield head operates, the tooth-shaped and zigzag structures are in contact with the operation faces, the round-tube structures are pulled by a ship to advance, high-pressure water flows in through the water inlet and sprayed through the water outlets, sand is raised by the sprayed high-pressure water, the raised sand is suctioned from sand suction ports, and water and sand mixtures are pumped out through the sand pumping port.
Suction shield head for seabed sand suction operation
LIU HEMING (author) / LIU HEBING (author)
2015-08-05
Patent
Electronic Resource
English
IPC:
E02F
Baggern
,
DREDGING
METHOD, SUCTION HEAD AND ARRANGEMENT FOR CLEANING A SEABED FROM POLLUTION
| European Patent Office | 2020
| Online Contents | 1974
SUCTION PILE SEABED LANDING AND VENTS CALCULATION
| TIBKAT | 2020