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Multi-point synchronous pushing intelligent regulation and correction system
A multipoint synchronous pushing intelligent regulation and correction system belongs to the technical field of bridge engineering construction, and comprises a steel main beam, a plurality of pushing brackets uniformly distributed at the lower end of the steel main beam along the direction of the steel main beam, pushing mechanisms arranged on the left and right sides of the top ends of the pushing brackets, a sensor unit, a monitoring unit and a master control computer, the pushing support is connected with the bottom of the steel main beam through a pushing mechanism, the pushing mechanism comprises a ratchet block type pushing unit used for moving the steel main beam forwards, and the ratchet block type pushing unit is provided with a ratchet block tooth groove structure used for positioning the steel main beam and pushing the steel main beam forwards. The sensor unit is used for detecting the matching degree of the ratchet block tooth groove structure and the forward pushing pressure, the monitoring unit is arranged at the lower end of the steel main beam and used for detecting whether the steel main beam deviates or not, and the master control computer is configured to control the matching degree of the ratchet block tooth groove structure, the forward pushing pressure and deviation correction of the steel main beam. Synchronous pushing of the steel main beam in bridge engineering can be achieved.
一种多点同步顶推智能调控与纠偏系统,属于桥梁工程施工技术领域,包括:钢主梁、沿钢主梁走向均匀分布于钢主梁下端的若干顶推支架、设于顶推支架顶端左右侧的顶推机构、传感器单元、监测单元、总控计算机,顶推支架通过顶推机构与钢主梁底部连接,顶推机构包括用以将钢主梁向前移动的棘块式顶推单元,棘块式顶推单元设有用以定位钢主梁及向前推进钢主梁的棘块齿槽结构,传感器单元用以检测棘块齿槽结构的配合度及向前顶推的压力,监测单元设于钢主梁的下端并用以检测钢主梁是否偏移,总控计算机配置为对棘块齿槽结构的配合度、向前顶推的压力、钢主梁的纠偏进行控制。本发明可实现桥梁工程中钢主梁的同步顶推。
Multi-point synchronous pushing intelligent regulation and correction system
A multipoint synchronous pushing intelligent regulation and correction system belongs to the technical field of bridge engineering construction, and comprises a steel main beam, a plurality of pushing brackets uniformly distributed at the lower end of the steel main beam along the direction of the steel main beam, pushing mechanisms arranged on the left and right sides of the top ends of the pushing brackets, a sensor unit, a monitoring unit and a master control computer, the pushing support is connected with the bottom of the steel main beam through a pushing mechanism, the pushing mechanism comprises a ratchet block type pushing unit used for moving the steel main beam forwards, and the ratchet block type pushing unit is provided with a ratchet block tooth groove structure used for positioning the steel main beam and pushing the steel main beam forwards. The sensor unit is used for detecting the matching degree of the ratchet block tooth groove structure and the forward pushing pressure, the monitoring unit is arranged at the lower end of the steel main beam and used for detecting whether the steel main beam deviates or not, and the master control computer is configured to control the matching degree of the ratchet block tooth groove structure, the forward pushing pressure and deviation correction of the steel main beam. Synchronous pushing of the steel main beam in bridge engineering can be achieved.
一种多点同步顶推智能调控与纠偏系统,属于桥梁工程施工技术领域,包括:钢主梁、沿钢主梁走向均匀分布于钢主梁下端的若干顶推支架、设于顶推支架顶端左右侧的顶推机构、传感器单元、监测单元、总控计算机,顶推支架通过顶推机构与钢主梁底部连接,顶推机构包括用以将钢主梁向前移动的棘块式顶推单元,棘块式顶推单元设有用以定位钢主梁及向前推进钢主梁的棘块齿槽结构,传感器单元用以检测棘块齿槽结构的配合度及向前顶推的压力,监测单元设于钢主梁的下端并用以检测钢主梁是否偏移,总控计算机配置为对棘块齿槽结构的配合度、向前顶推的压力、钢主梁的纠偏进行控制。本发明可实现桥梁工程中钢主梁的同步顶推。
Multi-point synchronous pushing intelligent regulation and correction system
一种多点同步顶推智能调控与纠偏系统
LI GUANGHAO (author) / SHI LIQIANG (author) / DONG SHIRONG (author) / SU DONG (author) / WANG ZHEN (author) / ZHAO JIANFENG (author) / WAN ZHENKUN (author) / ZHANG GUONING (author) / FU ZONGHUA (author) / SUN YANCHEN (author)
2024-12-27
Patent
Electronic Resource
Chinese
IPC:
E01D
BRIDGES
,
Brücken
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