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A platform for research: civil engineering, architecture and urbanism
Anchoring device for hydraulic creeping formwork hanging boot and anchoring construction method
The invention relates to an anchoring device for a hydraulic creeping formwork hanging boot and an anchoring construction method, and relates to the technical field of bridge construction. The device comprises two climbing cone rod pieces and an anchoring beam assembly, the two climbing cone rod pieces are arranged on the two sides of a main tower manhole respectively, and one end of each climbing cone rod piece is fixed in concrete on the side of the main tower manhole; the two ends of the anchoring beam assembly are connected with the other ends of the two climbing cone rod pieces correspondingly, so that the hydraulic climbing formwork hanging shoe is connected with the anchoring beam assembly, and anchoring of the hydraulic climbing formwork hanging shoe and a main tower can be achieved; the structure is simple, operation is convenient, and the construction efficiency of anchoring of the hydraulic climbing formwork hanging shoe is effectively improved; besides, the partial stress generated by the hydraulic creeping formwork hanging shoe can be sequentially transmitted to the anchoring beam assembly, the creeping cone rod piece and concrete of the main tower, so that the concrete bears partial stress generated by the hydraulic creeping formwork hanging shoe, stress concentration of the anchoring beam assembly and the creeping cone rod piece is avoided, the bearing capacity of the anchoring device is improved, and the stability and the safety of the anchoring device are enhanced.
本申请涉及一种用于液压爬模挂靴的锚固装置和锚固施工方法,涉及桥梁施工技术领域,其包括两爬锥杆件和锚固梁组件,两爬锥杆件分别设于主塔进人孔的两侧,且爬锥杆件的一端固定于主塔进人孔侧方的混凝土内,锚固梁组件的两端分别与两爬锥杆件的另一端连接,因此将液压爬模挂靴与锚固梁组件进行连接,即可实现液压爬模挂靴与主塔的锚固,结构简单、操作方便,有效提高了液压爬模挂靴锚固的施工效率;且由于液压爬模挂靴所产生的部分应力会依次传递至锚固梁组件、爬锥杆件和主塔的混凝土上,使得混凝土承受了液压爬模挂靴所产生的部分应力,避免了锚固梁组件和爬锥杆件出现应力集中,提高了锚固装置的承载力,增强了锚固装置的稳定性和安全性。
Anchoring device for hydraulic creeping formwork hanging boot and anchoring construction method
The invention relates to an anchoring device for a hydraulic creeping formwork hanging boot and an anchoring construction method, and relates to the technical field of bridge construction. The device comprises two climbing cone rod pieces and an anchoring beam assembly, the two climbing cone rod pieces are arranged on the two sides of a main tower manhole respectively, and one end of each climbing cone rod piece is fixed in concrete on the side of the main tower manhole; the two ends of the anchoring beam assembly are connected with the other ends of the two climbing cone rod pieces correspondingly, so that the hydraulic climbing formwork hanging shoe is connected with the anchoring beam assembly, and anchoring of the hydraulic climbing formwork hanging shoe and a main tower can be achieved; the structure is simple, operation is convenient, and the construction efficiency of anchoring of the hydraulic climbing formwork hanging shoe is effectively improved; besides, the partial stress generated by the hydraulic creeping formwork hanging shoe can be sequentially transmitted to the anchoring beam assembly, the creeping cone rod piece and concrete of the main tower, so that the concrete bears partial stress generated by the hydraulic creeping formwork hanging shoe, stress concentration of the anchoring beam assembly and the creeping cone rod piece is avoided, the bearing capacity of the anchoring device is improved, and the stability and the safety of the anchoring device are enhanced.
本申请涉及一种用于液压爬模挂靴的锚固装置和锚固施工方法,涉及桥梁施工技术领域,其包括两爬锥杆件和锚固梁组件,两爬锥杆件分别设于主塔进人孔的两侧,且爬锥杆件的一端固定于主塔进人孔侧方的混凝土内,锚固梁组件的两端分别与两爬锥杆件的另一端连接,因此将液压爬模挂靴与锚固梁组件进行连接,即可实现液压爬模挂靴与主塔的锚固,结构简单、操作方便,有效提高了液压爬模挂靴锚固的施工效率;且由于液压爬模挂靴所产生的部分应力会依次传递至锚固梁组件、爬锥杆件和主塔的混凝土上,使得混凝土承受了液压爬模挂靴所产生的部分应力,避免了锚固梁组件和爬锥杆件出现应力集中,提高了锚固装置的承载力,增强了锚固装置的稳定性和安全性。
Anchoring device for hydraulic creeping formwork hanging boot and anchoring construction method
一种用于液压爬模挂靴的锚固装置和锚固施工方法
AN HAOBING (author) / QIAN KUN (author) / WANG DONGHUI (author) / LIU CHUANZHI (author) / YAN CHUANGUO (author) / LIU KE (author) / ZHANG HONGXIN (author) / XIAO SHIBO (author) / ZHAO JINWEN (author) / WU KANFA (author)
2021-07-30
Patent
Electronic Resource
Chinese
IPC:
E01D
BRIDGES
,
Brücken
| European Patent Office | 2023