A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Anti-seismic building steel structure
The invention relates to the technical field of buildings, and provides an anti-seismic building steel structure which comprises a bearing beam, a cantilever beam, a transverse buffering assembly and a longitudinal buffering assembly, the bearing beam comprises a bearing frame, two longitudinal inclined holes are symmetrically formed in the two surfaces of the cantilever beam respectively, and the transverse buffering assembly comprises a clamping ring and a first buffering part; the surface of a bolt is movably sleeved with a coil spring in the first buffering part, the bolt is connected with one side of the bearing frame, a sleeve is fixedly connected to the middle of a clamping ring, the bolt and the coil spring are located in the sleeve, the surface of the bearing frame is sleeved with a cantilever beam, and the upper portion of the clamping ring makes contact with one side of the cantilever beam; a double-thread screw in the connecting part penetrates through the longitudinal inclined hole and the bearing frame, the upper portion of a movable frame in the second buffering part is connected with the double-thread screw, the lower portion of the movable frame makes contact with the surface of the bearing beam and the lower portion of the clamping ring at the same time, a spring is connected between the two movable frames, and the shock resistance is high.
本发明涉及建筑技术领域,提供了一种抗震建筑钢结构,包括承重梁、悬臂梁、横向缓冲组件和纵向缓冲组件,承重梁包括承载架,悬臂梁两个表面分别对称设置有两个纵向斜孔,横向缓冲组件包括夹紧环和第一缓冲部,第一缓冲部中的卷簧活动套设在螺栓表面,所述螺栓与承载架一侧连接,夹紧环中间位置固定连接有套管,螺栓和卷簧位于套管内,悬臂梁套设在承载架表面,夹紧环上方与悬臂梁一侧接触,纵向缓冲组件包括连接部和第二缓冲部,连接部中的双头螺杆贯穿纵向斜孔和承载架,第二缓冲部中的活动架上方与双头螺杆连接,所述活动架下方同时与承重梁表面和夹紧环下方接触,两个所述活动架之间连接有弹簧,具备抗震能力强的特点。
Anti-seismic building steel structure
The invention relates to the technical field of buildings, and provides an anti-seismic building steel structure which comprises a bearing beam, a cantilever beam, a transverse buffering assembly and a longitudinal buffering assembly, the bearing beam comprises a bearing frame, two longitudinal inclined holes are symmetrically formed in the two surfaces of the cantilever beam respectively, and the transverse buffering assembly comprises a clamping ring and a first buffering part; the surface of a bolt is movably sleeved with a coil spring in the first buffering part, the bolt is connected with one side of the bearing frame, a sleeve is fixedly connected to the middle of a clamping ring, the bolt and the coil spring are located in the sleeve, the surface of the bearing frame is sleeved with a cantilever beam, and the upper portion of the clamping ring makes contact with one side of the cantilever beam; a double-thread screw in the connecting part penetrates through the longitudinal inclined hole and the bearing frame, the upper portion of a movable frame in the second buffering part is connected with the double-thread screw, the lower portion of the movable frame makes contact with the surface of the bearing beam and the lower portion of the clamping ring at the same time, a spring is connected between the two movable frames, and the shock resistance is high.
本发明涉及建筑技术领域,提供了一种抗震建筑钢结构,包括承重梁、悬臂梁、横向缓冲组件和纵向缓冲组件,承重梁包括承载架,悬臂梁两个表面分别对称设置有两个纵向斜孔,横向缓冲组件包括夹紧环和第一缓冲部,第一缓冲部中的卷簧活动套设在螺栓表面,所述螺栓与承载架一侧连接,夹紧环中间位置固定连接有套管,螺栓和卷簧位于套管内,悬臂梁套设在承载架表面,夹紧环上方与悬臂梁一侧接触,纵向缓冲组件包括连接部和第二缓冲部,连接部中的双头螺杆贯穿纵向斜孔和承载架,第二缓冲部中的活动架上方与双头螺杆连接,所述活动架下方同时与承重梁表面和夹紧环下方接触,两个所述活动架之间连接有弹簧,具备抗震能力强的特点。
Anti-seismic building steel structure
一种抗震建筑钢结构
SHANGGUAN YUMING (author) / LIU BAOMIN (author) / DING DONGHUI (author) / DUAN RUICHAO (author) / JIA WENCHAO (author)
2024-10-25
Patent
Electronic Resource
Chinese