Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Cavity structure construction platform and telescopic operation platform and supporting device thereof
The invention discloses a cavity structure construction platform and a telescopic operation platform and a supporting device thereof. The supporting device of the cavity structure construction platform is characterized by comprising an upper support and a lower support, the lower support is supported below an inner truss, the upper support is supported below an outer truss, and the lengths of supporting legs of the upper support and the lower support can be adjusted so that the supporting legs can be detachably connected with embedded parts on the inner side wall of a cavity structure. The lengths of the supporting legs are adjusted to adapt to cavity structures with different sections. According to the cavity structure construction platform, automatic climbing of the inner truss and the outer truss is achieved through the driving mechanism, hoisting of a hoisting mechanism is not needed, meanwhile, due to the fact that the length of the supporting legs of the upper bearing and the length of the supporting legs of the lower bearing of the construction platform can be adjusted, the construction platform can adapt to climbing of cavity structures with different sections, the universality of the climbing platform is greatly improved, and the construction cost is reduced. Meanwhile, the cavity structure construction platform has the advantages of being simple in structure, stable in work and easy to achieve.
本发明公开了一种空腔结构施工平台及其可伸缩作业平台和支承装置。本空腔结构施工平台的支撑装置,其特征在于,包括上支承和下支承,其中,下支承支承于内桁架下方,上支承支承于外桁架下方,上支承和下支承的支撑腿长度均可调节以与空腔结构内侧壁的预埋件可拆卸连接,通过调整支撑腿长度以适应不同截面的空腔结构。本发明提出的空腔结构施工平台,通过驱动机构实现内桁架和外桁架的自动爬升,不需要吊装机构吊装,同时,本施工平台因为上支承和下支承的支撑腿长度可调整,因此,可适应不同截面的空腔结构的爬升,大大提高了本爬升平台的通用性,同时本空腔结构施工平台具有结构简单、工作稳定以及容易实现的优点。
Cavity structure construction platform and telescopic operation platform and supporting device thereof
The invention discloses a cavity structure construction platform and a telescopic operation platform and a supporting device thereof. The supporting device of the cavity structure construction platform is characterized by comprising an upper support and a lower support, the lower support is supported below an inner truss, the upper support is supported below an outer truss, and the lengths of supporting legs of the upper support and the lower support can be adjusted so that the supporting legs can be detachably connected with embedded parts on the inner side wall of a cavity structure. The lengths of the supporting legs are adjusted to adapt to cavity structures with different sections. According to the cavity structure construction platform, automatic climbing of the inner truss and the outer truss is achieved through the driving mechanism, hoisting of a hoisting mechanism is not needed, meanwhile, due to the fact that the length of the supporting legs of the upper bearing and the length of the supporting legs of the lower bearing of the construction platform can be adjusted, the construction platform can adapt to climbing of cavity structures with different sections, the universality of the climbing platform is greatly improved, and the construction cost is reduced. Meanwhile, the cavity structure construction platform has the advantages of being simple in structure, stable in work and easy to achieve.
本发明公开了一种空腔结构施工平台及其可伸缩作业平台和支承装置。本空腔结构施工平台的支撑装置,其特征在于,包括上支承和下支承,其中,下支承支承于内桁架下方,上支承支承于外桁架下方,上支承和下支承的支撑腿长度均可调节以与空腔结构内侧壁的预埋件可拆卸连接,通过调整支撑腿长度以适应不同截面的空腔结构。本发明提出的空腔结构施工平台,通过驱动机构实现内桁架和外桁架的自动爬升,不需要吊装机构吊装,同时,本施工平台因为上支承和下支承的支撑腿长度可调整,因此,可适应不同截面的空腔结构的爬升,大大提高了本爬升平台的通用性,同时本空腔结构施工平台具有结构简单、工作稳定以及容易实现的优点。
Cavity structure construction platform and telescopic operation platform and supporting device thereof
空腔结构施工平台及其可伸缩作业平台和支承装置
WANG KAIQIANG (Autor:in) / SUN QING (Autor:in) / HE CHENGLIN (Autor:in) / YANG DENG (Autor:in) / WANG PENG (Autor:in) / FANG XIAOLIN (Autor:in) / ZHU LEILEI (Autor:in) / CAO GAOWEI (Autor:in)
26.03.2024
Patent
Elektronische Ressource
Chinesisch
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