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Intelligent freely-compressible bridge replacement support
An intelligent freely-compressible bridge replacement support comprises an upper steel plate, a lower steel plate, a support body, an upper screw, a lower screw, a force sensor, a fixing nut and a force application nut. The support body is arranged in a space gap between the upper steel plate and the lower steel plate, the upper screw penetrates through a reserved hole channel of the upper steel plate, the upper end is fixed to the upper steel plate through a fixing nut, and the lower end extends into the force sensor; the lower screw penetrates through a reserved hole channel of the lower steel plate, the lower end is fixed to the lower steel plate through a fixing nut, the upper end extends into the force sensor, and the force application nut is arranged at the upper screw between the upper steel plate and the force sensor. According to the structure, relative movement between the upper steel plate and the lower steel plate is controlled by rotating the force application nut, compression and loosening of the support body are achieved, and meanwhile accurate monitoring of compression force in the operation process can be achieved through the force sensor. The structure is high inintelligent degree, the compression force can be freely adjusted according to actual needs, and the compression force can be monitored in real time.
一种智能可自由压缩的桥梁更换支座,包括上钢板、下钢板、支座本体、上螺杆、下螺杆、力传感器、固定螺母、施力螺母。支座本体设置于上钢板和下钢板之间的空间间隙中,上螺杆穿过上钢板的预留孔道,上端通过固定螺母与上钢板固定,下端伸入力传感器内部;下螺杆穿过下钢板的预留孔道,下端通过固定螺母与下钢板固定,上端伸入力传感器内部,施力螺母设置于上钢板与力传感器之间的上螺杆处。本结构通过旋转施力螺母控制上钢板、下钢板之间的相对移动,实现对支座本体的压缩与放松,同时,力传感器的存在能够实现作业过程中的压缩力的精准监测。本结构智能化程度高,压缩力可根据实际需要自由调节,压缩力能实时监测。
Intelligent freely-compressible bridge replacement support
An intelligent freely-compressible bridge replacement support comprises an upper steel plate, a lower steel plate, a support body, an upper screw, a lower screw, a force sensor, a fixing nut and a force application nut. The support body is arranged in a space gap between the upper steel plate and the lower steel plate, the upper screw penetrates through a reserved hole channel of the upper steel plate, the upper end is fixed to the upper steel plate through a fixing nut, and the lower end extends into the force sensor; the lower screw penetrates through a reserved hole channel of the lower steel plate, the lower end is fixed to the lower steel plate through a fixing nut, the upper end extends into the force sensor, and the force application nut is arranged at the upper screw between the upper steel plate and the force sensor. According to the structure, relative movement between the upper steel plate and the lower steel plate is controlled by rotating the force application nut, compression and loosening of the support body are achieved, and meanwhile accurate monitoring of compression force in the operation process can be achieved through the force sensor. The structure is high inintelligent degree, the compression force can be freely adjusted according to actual needs, and the compression force can be monitored in real time.
一种智能可自由压缩的桥梁更换支座,包括上钢板、下钢板、支座本体、上螺杆、下螺杆、力传感器、固定螺母、施力螺母。支座本体设置于上钢板和下钢板之间的空间间隙中,上螺杆穿过上钢板的预留孔道,上端通过固定螺母与上钢板固定,下端伸入力传感器内部;下螺杆穿过下钢板的预留孔道,下端通过固定螺母与下钢板固定,上端伸入力传感器内部,施力螺母设置于上钢板与力传感器之间的上螺杆处。本结构通过旋转施力螺母控制上钢板、下钢板之间的相对移动,实现对支座本体的压缩与放松,同时,力传感器的存在能够实现作业过程中的压缩力的精准监测。本结构智能化程度高,压缩力可根据实际需要自由调节,压缩力能实时监测。
Intelligent freely-compressible bridge replacement support
一种智能可自由压缩的桥梁更换支座
WEI YANG (author) / ZHU CHAO (author) / QIAN HAO (author) / ZHAO KANG (author) / DONG FENGHUI (author)
2021-02-12
Patent
Electronic Resource
Chinese
IPC:
E01D
BRIDGES
,
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