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A platform for research: civil engineering, architecture and urbanism
Staircase skip-floor construction platform for high-rise cylinder and plate integrated construction process
The staircase duplex construction platform for the high-rise cylinder and plate integrated construction technology comprises a plurality of layers of operation platforms, a lower hanging platform and a material channel, and the multiple layers of operation platforms are sequentially arranged in an overlapped mode through a supporting frame; the lower hanging platform is attached to the bottom of the first layer of operation platform in the multiple layers of operation platforms and transmits a load to the operation platform above; the material channel penetrates through the multiple layers of operation platforms. The longitudinal-striding type supporting structure is longitudinally arranged along a bottom plate of the operation platform and hinged to the operation platform through a hinge structure, and the longitudinal-striding type supporting structure can rotate relative to the first layer of operation platform along the hinge structure and be separated from a floor slab through pressing of the floor slab. An elastic assembly is arranged between the longitudinal-striding type supporting structure and the operation platform, and the longitudinal-striding type supporting structure is reset through the elastic assembly and connected with the floor in a matched mode. According to the scheme, manual operation is not needed for contraction of the supporting platform, and the construction efficiency of the staircase construction platform is greatly improved.
本发明公开了一种用于高层筒板一体化施工工艺的楼梯间跃层施工平台,包括若干层操作平台,下挂平台以及物料通道,若干层操作平台依次通过支撑架依次叠加设置;所述下挂平台附着于若干层操作平台中的首层操作平台底部并将荷载传递给上方的操作平台;所述物料通道贯穿于若干层操作平台中间;沿操作平台的底板纵向布置纵跨式支撑结构并与操作平台通过铰接结构进行铰接,可通过楼板的按压将纵跨式支撑结构相对于第一层操作平台顺着铰接结构进行旋转并与楼板脱离;纵跨式支撑结构与操作平台之间设有弹性组件,通过弹性组件将纵跨式支撑结构复位并与楼板配合连接。本方案对于支撑平台的收缩无需进行手动操作,大大提高了楼梯间施工平台的施工效率。
Staircase skip-floor construction platform for high-rise cylinder and plate integrated construction process
The staircase duplex construction platform for the high-rise cylinder and plate integrated construction technology comprises a plurality of layers of operation platforms, a lower hanging platform and a material channel, and the multiple layers of operation platforms are sequentially arranged in an overlapped mode through a supporting frame; the lower hanging platform is attached to the bottom of the first layer of operation platform in the multiple layers of operation platforms and transmits a load to the operation platform above; the material channel penetrates through the multiple layers of operation platforms. The longitudinal-striding type supporting structure is longitudinally arranged along a bottom plate of the operation platform and hinged to the operation platform through a hinge structure, and the longitudinal-striding type supporting structure can rotate relative to the first layer of operation platform along the hinge structure and be separated from a floor slab through pressing of the floor slab. An elastic assembly is arranged between the longitudinal-striding type supporting structure and the operation platform, and the longitudinal-striding type supporting structure is reset through the elastic assembly and connected with the floor in a matched mode. According to the scheme, manual operation is not needed for contraction of the supporting platform, and the construction efficiency of the staircase construction platform is greatly improved.
本发明公开了一种用于高层筒板一体化施工工艺的楼梯间跃层施工平台,包括若干层操作平台,下挂平台以及物料通道,若干层操作平台依次通过支撑架依次叠加设置;所述下挂平台附着于若干层操作平台中的首层操作平台底部并将荷载传递给上方的操作平台;所述物料通道贯穿于若干层操作平台中间;沿操作平台的底板纵向布置纵跨式支撑结构并与操作平台通过铰接结构进行铰接,可通过楼板的按压将纵跨式支撑结构相对于第一层操作平台顺着铰接结构进行旋转并与楼板脱离;纵跨式支撑结构与操作平台之间设有弹性组件,通过弹性组件将纵跨式支撑结构复位并与楼板配合连接。本方案对于支撑平台的收缩无需进行手动操作,大大提高了楼梯间施工平台的施工效率。
Staircase skip-floor construction platform for high-rise cylinder and plate integrated construction process
一种用于高层筒板一体化施工工艺的楼梯间跃层施工平台
CHEN ZHIHENG (author) / MA XINXU (author) / YIN GUANGHUA (author) / WU YUNLONG (author) / GAN MINGHENG (author) / HAO LIMING (author) / ZHANG ZHONGLIANG (author)
2023-01-31
Patent
Electronic Resource
Chinese
IPC:
E04G
SCAFFOLDING
,
Baugerüste
| European Patent Office | 2023
| European Patent Office | 2022