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Synchronous intelligent control system for bridge swivel construction
The invention discloses a synchronous intelligent control system for bridge swivel construction, which comprises two sets of monitoring devices correspondingly arranged on designed mileage coincidence sections of two beam bodies, and any set of monitoring device comprises a plurality of monitoring points which are arranged at intervals along the length direction of the corresponding beam body, the plurality of monitoring points on the left beam body and the right beam body correspond in pairs to form groups, and the distance between two monitoring points on the same beam body in any two groups of monitoring points is equal; and the controller is used for acquiring real-time monitoring data of each monitoring point, processing the real-time monitoring data, judging whether the two beam bodies are in a parallel state or not and judging the rotating position of the single beam body, and controlling the working state of the rotating body mechanism on the basis. The multiple groups of monitoring points are oppositely arranged on the design mileage coincidence sections of the left and right beam bodies, and the relative positions of the same group of monitoring points are dynamically controlled in cooperation with a satellite navigation positioning technology, so that the method can adapt to bridge swivel synchronous control under various working conditions, and the control effect and the control efficiency are ensured.
本发明公开了一种用于桥梁转体施工的同步性智能控制系统,包括:两套监测装置,其对应设置在两个梁体的设计里程重合段上,任一套监测装置包括多个监测点,其沿对应的梁体的长度方向间隔设置,左、右幅梁体上的多个监测点两两对应成组,任意两组监测点中位于相同梁体上的两个监测点的间距相等;控制器,其设置为用于获取各监测点的实时监测数据并对其进行处理,判断两个梁体是否处于平行状态和单个梁体的转动位置,并以此为依据控制转体机构的工作状态。本发明通过在左、右幅梁体的设计里程重合段相对设置多组监测点,配合卫星导航定位技术对同组监测点的相对位置进行动态控制,能够适应多种工况下的桥梁转体同步控制,保证控制效果和控制效率。
Synchronous intelligent control system for bridge swivel construction
The invention discloses a synchronous intelligent control system for bridge swivel construction, which comprises two sets of monitoring devices correspondingly arranged on designed mileage coincidence sections of two beam bodies, and any set of monitoring device comprises a plurality of monitoring points which are arranged at intervals along the length direction of the corresponding beam body, the plurality of monitoring points on the left beam body and the right beam body correspond in pairs to form groups, and the distance between two monitoring points on the same beam body in any two groups of monitoring points is equal; and the controller is used for acquiring real-time monitoring data of each monitoring point, processing the real-time monitoring data, judging whether the two beam bodies are in a parallel state or not and judging the rotating position of the single beam body, and controlling the working state of the rotating body mechanism on the basis. The multiple groups of monitoring points are oppositely arranged on the design mileage coincidence sections of the left and right beam bodies, and the relative positions of the same group of monitoring points are dynamically controlled in cooperation with a satellite navigation positioning technology, so that the method can adapt to bridge swivel synchronous control under various working conditions, and the control effect and the control efficiency are ensured.
本发明公开了一种用于桥梁转体施工的同步性智能控制系统,包括:两套监测装置,其对应设置在两个梁体的设计里程重合段上,任一套监测装置包括多个监测点,其沿对应的梁体的长度方向间隔设置,左、右幅梁体上的多个监测点两两对应成组,任意两组监测点中位于相同梁体上的两个监测点的间距相等;控制器,其设置为用于获取各监测点的实时监测数据并对其进行处理,判断两个梁体是否处于平行状态和单个梁体的转动位置,并以此为依据控制转体机构的工作状态。本发明通过在左、右幅梁体的设计里程重合段相对设置多组监测点,配合卫星导航定位技术对同组监测点的相对位置进行动态控制,能够适应多种工况下的桥梁转体同步控制,保证控制效果和控制效率。
Synchronous intelligent control system for bridge swivel construction
一种用于桥梁转体施工的同步性智能控制系统
LIU ZHIHUA (author) / YUAN YIHUA (author) / LI ERWEI (author) / YI ZHONGPING (author) / AN WEN (author) / GUO WEIXIN (author) / ZOU MING (author) / WANG JUNFU (author) / YI CHAO (author) / YU GAOWEI (author)
2024-04-19
Patent
Electronic Resource
Chinese
IPC:
E01D
BRIDGES
,
Brücken
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