A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Magnetic levitation track beam and track structure
The invention relates to the technical field of high-speed magnetic levitation train bridge engineering, and provides a magnetic levitation track beam. The magnetic levitation track beam comprises a plurality of sections of main beams which are sequentially arranged along the running direction, and further comprises a splicing structure for eliminating slab staggering load effect force between opposite end surfaces of every two adjacent sections of main beams. Every two adjacent sections of main beams are connected through the corresponding splicing structure, and the upper surfaces of every two connected adjacent sections of main beams are located in the same plane. The invention further provides a magnetic levitation track structure which comprises the magnetic levitation track beam andanother track beam arranged above the magnetic levitation track beam. A beam seam of the another track beam is aligned with the beam seam between every two adjacent sections of main beams of the magnetic levitation track beam. The magnetic levitation track structure comprises the magnetic levitation track beam and another track beam arranged above the magnetic levitation track beam, and the beam seam of the another track beam is aligned with the beam seam between every two adjacent sections of main beams of the magnetic levitation track beam.
本发明涉及高速磁悬浮列车桥梁工程技术领域,提供了一种磁悬浮轨道梁,包括沿行车方向依次布设的若干段主梁,还包括用于消除相邻两段所述主梁正对的端面之间的错台荷载效应力的拼接结构,相邻的两段所述主梁通过所述拼接结构连接,连接后的相邻的两段所述主梁的上表面处于同一平面内。还包括一种磁悬浮轨道结构,包括上述的磁悬浮轨道梁以及设于所述磁悬浮轨道梁上方的另外的轨道梁,该另外的轨道梁的梁缝与所述磁悬浮轨道梁的相邻两段主梁之间的梁缝对齐。本发明的一种磁悬浮轨道结构,包括上述的磁悬浮轨道梁以及设于所述磁悬浮轨道梁上方的另外的轨道梁,该另外的轨道梁的梁缝与所述磁悬浮轨道梁的相邻两段主梁之间的梁缝对齐。
Magnetic levitation track beam and track structure
The invention relates to the technical field of high-speed magnetic levitation train bridge engineering, and provides a magnetic levitation track beam. The magnetic levitation track beam comprises a plurality of sections of main beams which are sequentially arranged along the running direction, and further comprises a splicing structure for eliminating slab staggering load effect force between opposite end surfaces of every two adjacent sections of main beams. Every two adjacent sections of main beams are connected through the corresponding splicing structure, and the upper surfaces of every two connected adjacent sections of main beams are located in the same plane. The invention further provides a magnetic levitation track structure which comprises the magnetic levitation track beam andanother track beam arranged above the magnetic levitation track beam. A beam seam of the another track beam is aligned with the beam seam between every two adjacent sections of main beams of the magnetic levitation track beam. The magnetic levitation track structure comprises the magnetic levitation track beam and another track beam arranged above the magnetic levitation track beam, and the beam seam of the another track beam is aligned with the beam seam between every two adjacent sections of main beams of the magnetic levitation track beam.
本发明涉及高速磁悬浮列车桥梁工程技术领域,提供了一种磁悬浮轨道梁,包括沿行车方向依次布设的若干段主梁,还包括用于消除相邻两段所述主梁正对的端面之间的错台荷载效应力的拼接结构,相邻的两段所述主梁通过所述拼接结构连接,连接后的相邻的两段所述主梁的上表面处于同一平面内。还包括一种磁悬浮轨道结构,包括上述的磁悬浮轨道梁以及设于所述磁悬浮轨道梁上方的另外的轨道梁,该另外的轨道梁的梁缝与所述磁悬浮轨道梁的相邻两段主梁之间的梁缝对齐。本发明的一种磁悬浮轨道结构,包括上述的磁悬浮轨道梁以及设于所述磁悬浮轨道梁上方的另外的轨道梁,该另外的轨道梁的梁缝与所述磁悬浮轨道梁的相邻两段主梁之间的梁缝对齐。
Magnetic levitation track beam and track structure
磁悬浮轨道梁以及轨道结构
ZENG MIN (author) / WEN WANGQING (author) / XIONG CHEN (author) / YAN AIGUO (author) / RAO SHAOCHEN (author) / CAO WENJIE (author) / ZHANG LING (author) / WANG ZHIPING (author) / YANG GUANG (author) / YANG CHAOLONG (author)
2020-12-22
Patent
Electronic Resource
Chinese
IPC:
E01B
PERMANENT WAY
,
Gleisoberbau