Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Self-adaptive temporary inclined strut structure
The invention discloses a self-adaptive temporary diagonal bracing structure, which relates to the technical field of buildings, and is characterized in that through the arrangement of a fixing sleeve, a telescopic sleeve, an electric telescopic driving device, a gyroscope and a stress displacement sensor, the temporary diagonal bracing structure supports an unformed structure through an upper supporting seat and a lower supporting seat; the gyroscope detects the moving distance of the lower supporting base and the rotating angle of the corresponding rotating shaft to judge the distance between the upper supporting base and the lower supporting base, then the electric telescopic driving device is used for driving the telescopic sleeve to extend for compensation, the upper supporting base is still kept at the initial position after being stressed, and the self-adaptive inclination angle is achieved; an audible and visual alarm is mounted on a mounting base, an electric telescopic driving device drives a telescopic sleeve to extend for compensation, meanwhile, the audible and visual alarm gives an alarm to remind workers to pay attention, and digital construction can be achieved by connecting a driving motor, the audible and visual alarm, a positioner, a gyroscope and a stress displacement sensor with the BIM internet of things.
本发明公开了一种自适应临时斜撑结构,涉及到建筑技术领域,通过设置的固定套、伸缩套、电力伸缩驱动装置以及陀螺仪和应力位移传感器,将临时斜撑结构通过上部支撑座和下部支撑座支撑住未成型结构后,陀螺仪检测下部支撑座的移动距离和对应转轴的转动角度判断出上部支撑座外行的间距,再利用电力伸缩驱动装置驱动伸缩套伸长进行补偿,使得上部支撑座在受力后依然维持初始位置,实现自适应倾斜角度,通过在安装座上安装有声光报警器,电力伸缩驱动装置驱动伸缩套伸长进行补偿的同时,声光报警器发出警报,以提醒工作人员注意,通过将驱动电机、声光报警器、定位器、陀螺仪和应力位移传感器均与BIM模型物联网连接,可实现数字化施工。
Self-adaptive temporary inclined strut structure
The invention discloses a self-adaptive temporary diagonal bracing structure, which relates to the technical field of buildings, and is characterized in that through the arrangement of a fixing sleeve, a telescopic sleeve, an electric telescopic driving device, a gyroscope and a stress displacement sensor, the temporary diagonal bracing structure supports an unformed structure through an upper supporting seat and a lower supporting seat; the gyroscope detects the moving distance of the lower supporting base and the rotating angle of the corresponding rotating shaft to judge the distance between the upper supporting base and the lower supporting base, then the electric telescopic driving device is used for driving the telescopic sleeve to extend for compensation, the upper supporting base is still kept at the initial position after being stressed, and the self-adaptive inclination angle is achieved; an audible and visual alarm is mounted on a mounting base, an electric telescopic driving device drives a telescopic sleeve to extend for compensation, meanwhile, the audible and visual alarm gives an alarm to remind workers to pay attention, and digital construction can be achieved by connecting a driving motor, the audible and visual alarm, a positioner, a gyroscope and a stress displacement sensor with the BIM internet of things.
本发明公开了一种自适应临时斜撑结构,涉及到建筑技术领域,通过设置的固定套、伸缩套、电力伸缩驱动装置以及陀螺仪和应力位移传感器,将临时斜撑结构通过上部支撑座和下部支撑座支撑住未成型结构后,陀螺仪检测下部支撑座的移动距离和对应转轴的转动角度判断出上部支撑座外行的间距,再利用电力伸缩驱动装置驱动伸缩套伸长进行补偿,使得上部支撑座在受力后依然维持初始位置,实现自适应倾斜角度,通过在安装座上安装有声光报警器,电力伸缩驱动装置驱动伸缩套伸长进行补偿的同时,声光报警器发出警报,以提醒工作人员注意,通过将驱动电机、声光报警器、定位器、陀螺仪和应力位移传感器均与BIM模型物联网连接,可实现数字化施工。
Self-adaptive temporary inclined strut structure
一种自适应临时斜撑结构
CHEN BO (Autor:in) / HU SHENLIN (Autor:in) / LI YANG (Autor:in) / YANG YU (Autor:in) / LI ZHI (Autor:in)
13.02.2024
Patent
Elektronische Ressource
Chinesisch
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