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Self-balancing load box testing structure and method for inclined steel pipe pile of bridge
The invention discloses a self-balancing load box testing structure and method for an inclined steel pipe pile of a bridge. The self-balancing load box testing structure comprises the inclined steel pipe pile and a load box arranged in the inclined steel pipe pile. The self-balancing load box testing structure is characterized in that the inclined steel pipe pile is internally provided with an upper baffle and a lower baffle, wherein a sliding chute is formed in the lower baffle; a lead steel wire extends to the downside of the sliding chute after passing through the load box, and the bottom end of the lead steel wire is connected with a check block; the top end of the inclined steel pipe pile is provided with a lead ring; and the lead steel wire is buckled on the lead ring after extending to the top of the inclined steel pipe pile. Compared with the prior art, the self-balancing load box testing structure has the advantages that the device is simple in construction, meanwhile, the angle of a reference beam can be regulated particularly according to the inclination angle of the inclined steel pipe pile, so that the reference beam rapidly corresponds to the inclined steel pipe pile; and after the construction is ended, the load box can be pulled out and recycled, so that the self-balancing load box testing structure is suitable for popularization and application.
Self-balancing load box testing structure and method for inclined steel pipe pile of bridge
The invention discloses a self-balancing load box testing structure and method for an inclined steel pipe pile of a bridge. The self-balancing load box testing structure comprises the inclined steel pipe pile and a load box arranged in the inclined steel pipe pile. The self-balancing load box testing structure is characterized in that the inclined steel pipe pile is internally provided with an upper baffle and a lower baffle, wherein a sliding chute is formed in the lower baffle; a lead steel wire extends to the downside of the sliding chute after passing through the load box, and the bottom end of the lead steel wire is connected with a check block; the top end of the inclined steel pipe pile is provided with a lead ring; and the lead steel wire is buckled on the lead ring after extending to the top of the inclined steel pipe pile. Compared with the prior art, the self-balancing load box testing structure has the advantages that the device is simple in construction, meanwhile, the angle of a reference beam can be regulated particularly according to the inclination angle of the inclined steel pipe pile, so that the reference beam rapidly corresponds to the inclined steel pipe pile; and after the construction is ended, the load box can be pulled out and recycled, so that the self-balancing load box testing structure is suitable for popularization and application.
Self-balancing load box testing structure and method for inclined steel pipe pile of bridge
HOU HONGWEI (author)
2015-11-18
Patent
Electronic Resource
English
IPC:
E02D
FOUNDATIONS
,
GrĂ¼ndungen
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