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A platform for research: civil engineering, architecture and urbanism
THE LARGE DIAMETER COMPOSITION PILES TO BE CLAMP SOCKET WING BEAM COMBINATION WITH SMALL DIAMETER PIPE
The present invention relates to a composite pile capable of enlarging a diameter of a small-diameter pile. The purpose of the present invention is to provide the composite pile capable of enlarging the diameter of the small-diameter pile by joining a clamp socket wing beam to a small-diameter pile capable of enlarging the diameter of the small-diameter pile to improve flexible rigidity, and a point bearing capacity by attaching the clamp socket wing beam to an outer surface of the small-diameter pile buried underground; improving constructability and reducing a construction period by reducing expenses for materials and size of a punching hole; and improving economic efficiency and constructability by reducing the number of the piles by installing the composite pile of the present invention in accordance to a direction which an external force is applied, contributing to the prevention of global warming. To achieve this purpose, the present invention is characterized by a fact that the composite pile buried underground to support a foundation includes supporting piles buried underground, and a clamp socket wing beam composed of a pair of clamp sockets integrating supporting piles by applying a binding force while covering the outer surfaces of the supporting piles, and a plurality of wing beams capable of enlarging the diameter of the small-diameter pile by being expanded in a circumferential direction of the supporting pile from the outer sides of each clamp socket.
THE LARGE DIAMETER COMPOSITION PILES TO BE CLAMP SOCKET WING BEAM COMBINATION WITH SMALL DIAMETER PIPE
The present invention relates to a composite pile capable of enlarging a diameter of a small-diameter pile. The purpose of the present invention is to provide the composite pile capable of enlarging the diameter of the small-diameter pile by joining a clamp socket wing beam to a small-diameter pile capable of enlarging the diameter of the small-diameter pile to improve flexible rigidity, and a point bearing capacity by attaching the clamp socket wing beam to an outer surface of the small-diameter pile buried underground; improving constructability and reducing a construction period by reducing expenses for materials and size of a punching hole; and improving economic efficiency and constructability by reducing the number of the piles by installing the composite pile of the present invention in accordance to a direction which an external force is applied, contributing to the prevention of global warming. To achieve this purpose, the present invention is characterized by a fact that the composite pile buried underground to support a foundation includes supporting piles buried underground, and a clamp socket wing beam composed of a pair of clamp sockets integrating supporting piles by applying a binding force while covering the outer surfaces of the supporting piles, and a plurality of wing beams capable of enlarging the diameter of the small-diameter pile by being expanded in a circumferential direction of the supporting pile from the outer sides of each clamp socket.
THE LARGE DIAMETER COMPOSITION PILES TO BE CLAMP SOCKET WING BEAM COMBINATION WITH SMALL DIAMETER PIPE
HONG SEOK HEE (author)
2015-09-09
Patent
Electronic Resource
Korean
IPC:
E02D
FOUNDATIONS
,
Gründungen
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| ASCE | 2009
Driving behavior of large diameter steel pipe piles
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Load Test Results-Large Diameter Helical Pipe Piles
| British Library Conference Proceedings | 2009